AUGMENTING INFORMATION FOR A PROPOSED...
Transcript of AUGMENTING INFORMATION FOR A PROPOSED...
AUGMENTING INFORMATION FOR A PROPOSED TAWICH
NATIONAL MARINE CONSERVATION AREA FEASIBILITY
ASSESSMENT, JAMES BAY MARINE REGION:
CULTURAL AND BIO-ECOLOGICAL ASPECTS
Prepared for: Parks Canada,
December 2009
Katherine Scott1, Véronique Bussières
2, Sylvain Archambault
3, Wren Nasr
1, Jim
Fyles4,
Kristen Whitbeck4 and Henry Stewart
5
with
Colin Scott, Principal Investigator
1Department of Anthropology, McGill University, 855 Sherbrooke, ouest, Leacock 717. Montreal, QC
Email: [email protected]; 2Department of Geography, Planning and Environment, Concordia University, 1455 de Maisonneuve W.
Montreal, QC. Email: [email protected]; 3Société pour la nature et les parcs du Canada (SNAP Québec);
4Department of Natural Resource Science, McGill University, Montreal, QC;
5Cree Nation of Wemindji, QC.
BACKGROUND & RATIONALE
The Crees of Northern Quebec have proposed an area on the eastern side of James Bay as a
national marine conservation area (NMCA). In 1996 preliminary work to identify natural
areas of significance in the James Bay marine region was completed by Parks Canada
(Stewart et al. 1996). The area proposed coincides with one of the foremost among four
representative marine areas identified at that time (eastern James Bay). Parks Canada has
expressed an interest in pursuing this potential proposal. Early in 2009 correspondence in support
of such an initiative took place between Grand Chief Matthew Mukash of the Grand Council of
the Crees (Eeyou Istchee) and Minister of the Environment Jim Prentice.
The research that is the basis of the present report was commissioned to address certain gaps in
information for an enhanced profile of the study area, to better equip Parks Canada for decision-
making with respect to a proposed Tawich NMCA feasibility study. In return for Parks Canada
field logistics support in the form of helicopter charter, our research team agreed to complete
activities during the summer of 2009 to augment existing geological, biological and cultural
information within the study area, i.e. the proposed Tawich National Marine Conservation
Area. We built on surveys carried out in 2007 and 2008 to provide a qualitative assessment of
marine and island life not covered in the field reports of those previous seasons‟ work (see
Mulrennan et al., 2009, for an overview of the current state of knowledge for this area).
The objectives for the 2009 research specified in our contract with Parks Canada included the
following:
Survey offshore islands within the study area between July 26 and July 31, 2009, using a
chartered helicopter to more efficiently collect information;
Weather permitting, the islands to be surveyed will include Cape Hope Islands, Weston
Island, Solomon's Temple Islands, Old Factory Islands, and Pebble Island;
Using a multidisciplinary team with expertise in geology, biology and anthropology,
collect data on the geology, geomorphology, flora and fauna (terrestrial, intertidal and
near subtidal, as well as any offshore observations made) and cultural significance of
these islands and other near-shore islands, as appropriate;
Note any locations which might be of particular interest with respect to potential visitor
experiences, whether recreational or educational, for people visiting a potential national
marine conservation area in this area;
Produce reports on the information gathered, for use by Parks Canada and the Wemindji-
McGill Protected Areas Project, to supplement existing information described in the
report Tawich (Marine) Conservation Area - Eastern James Bay of the Wemindji-McGill
Protected Area Project, 2009.
Our contract calls for individual reports on information collected within the study area with
respect to:
Biology of the islands and surrounding area, including the flora and fauna of the islands,
the intertidal and near subtidal area and any relevant information as to the importance or
rarity of these features, as well as any specific recommendations for the purposes of a
potential national marine conservation area
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The cultural significance and local use of the islands and surrounding area, including any
specific recommendations for the purposes of a potential national marine conservation
area
The geology and geomorphology of the islands and surrounding area, including the
seabed, and including any information available on the potential for hydrocarbons or
mineral resources, as well as any specific recommendations for the purposes of a potential
national marine conservation area.
Because the cultural and bio-ecological team members are either the same individuals or
have collaborated closely in the course of our survey activities in this and previous years, and
because the social and ecological dimensions of the offshore environment bear joint
presentation and analysis, the first and second bullets above are addressed in the present
report. The Wemindji Geologic Report is prepared separately by team geologists George
McCourt and Youcef Larbi.
Fieldwork Dates: July 24 - August 3, 2009.
Team Members: Sylvain Archambault, Véronique Bussières, Jim Fyles,
(in alphabetical order) Youcef Larbi, George McCourt, Wren Nasr, Colin Scott,
Katherine Scott, Henry Stewart, and Kristen Whitbeck.
Places visited: - Kaawiipinikaau Minshtikwh (Blackstone Islands)
(see maps, pp. 5, 6) - Upishtikwaayaau Minshtikw (Frenchman‟s Island)
- Akwaanaasuukimikw (Warehouse Island; also referred
to as the „Gathering‟ Island)
- The „Cabin‟ Island
- Paakumshumwaashtikw Minishtikwh (Old Factory
Islands)
- Kaa-apiskuutaanikaach (Solomon's Temple Islands)
- Yaakaau Minshtikw (Weston Island)
- Wiipichiinikw (literally, „Walrus Island‟; Cape Hope
Islands on topographical maps)
- Aanuutimitinaach (Walrus Island on topographical
maps)
ACKNOWLEDGEMENTS
We are grateful for the support of the Cree Nation of Wemindji, Parks Canada, and the Social
Sciences and Humanities Research Council of Canada, Community-University Research
Alliances Program. Especially warm thanks are due our helicopter pilot, Jorge Malabi, who
got the job done safely under vexing constraints of weather and scheduling, and Michel Coté,
Director of Operations at Whapchiwem Helicopters, for organizing logistics. Thanks also to
our families, whose support in the field and at home makes this work possible.
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METHODOLOGY
The „cultural‟ component of the present report is an overview based partly on Colin Scott‟s
research engagement in Wemindji‟s coastal and offshore area since the mid-1970s; partly on
conversations and participant observation with Cree and Inuit guides during the past three
summer field seasons (not treated in the bio-ecology-oriented field reports for 2007 and
2008); partly on Wren Nasr‟s conversations during summer of 2009 with Wemindji people
who attended the 2009 Old Factory Visit; partly on our meetings with tallymen and other
community members; and partly on published and unpublished literature.
The „bio-ecology‟ component reports on summer 2009 survey activities supported by the
present contract, with some comparative tables compiling multi-year data in the appendices.
The „ecology team‟ travelled to the islands by helicopter and boat. The achievable
destinations and the amount of time we could spend in each place were determined by
weather, as helicopter access to the islands is possible only with excellent visibility. Decisions
regarding drop-off and pick-up times were constrained by flying and safety considerations.
Time on each island was usually limited to less than four hours, but Weston Island was re-
visited because of the complexity of the habitats it presented. The majority of a day and the
following morning were spent on Old Factory Islands. Of the intended work sites, only Pebble
Island was not visited. Given unstable flying conditions during much of the period for which
the helicopter was chartered, it was deemed a dispensable priority for this year.
Our trip to Wemindji coincided with the community's annual Old Factory Visit at the
'Gathering' Island. Our base camp was set up at Old Factory (on the 'Gathering' Island) so we
were able to benefit again this year from opportunities to talk with Wemindji people about the
NMCA on a daily basis, especially when the weather did not permit flying.
Marine fauna and flora as well as avian surveys were conducted at Weston Island, Old
Factory1 and Blackstone Islands and the „Cabin‟ Island near camp. Most of the sampling for
marine flora and fauna was completed by walking along the beach or wading in the shallow
sub-tidal zone (less than 5 feet depth). At Weston and the Blackstone Islands snorkelling
using a dry-suit was also done to explore the nearshore fauna, but this was quite time
consuming. Wading was thus the more practical method since it requires little preparation
time. It became our preferred method on islands where time was limited or unpredictable.
Specimens were identified in situ when possible. Otherwise, pictures or samples were taken
for subsequent identification. Beach seining was also useful when time allowed it and beaches
were suitable (i.e., in the absence of larger boulders). This was done using a 1/16 inch mesh
size 30 X 4 feet seine net with a pouch. Specimens were identified, measured and released at
the site.
The objective of the marine and shore bird survey was to provide a qualitative assessment of
local bird populations. Therefore, bird surveys were not done in a systematic manner. Bird
observations were thus noted during the course of other activities marine sampling activities.
Similarly, our helicopter lifts, forays by freighter canoe, and walking surveys afforded a
qualitative assessment of the presence of larger fauna, both marine and terrestrial. There were
several sightings of beluga whales, from individuals to a group of eight or more. Polar bear
sightings also occurred. Abundant signs of winter caribou grazing and droppings were noted
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on Old Factory Islands and Blackstone Islands, and caribou were sighted, solitary and in cow-
calf pairs, at Solomon‟s Temple Islands and on nearshore coastal islands, including
Frenchman‟s Island and Chiimaan Minshtikw („Ship Island‟). Signs and sounds of a pair of
wolves were present on Old Factory Islands during our visit.
Plant surveys were carried out July 21 to August 1, 2009 at Weston, Old Factory1, Blackstone,
Solomon's Temple Islands and the „Cabin‟ Island near base camp. On walks across or around
each island, we inventoried and often photographed species and habitats. Trajectories for
these walks were determined by the terrain and time available before the return of the
helicopter. Plants were identified in situ when possible or samples were taken for later
verification. Specimens that we could not identify or key in the field were pressed for later
study. The process of identification and verification is ongoing. Relative abundance of species
and environmental data were recorded. Special attention was given to intertidal and nearshore
plant communities. Due to the short timeframe for work on each island, our inventory is not
exhaustive, though it does capture a sense of the unique and varied habitats we visited on each
island and the range of species in these varied environments.
m
The team included three anthropologists, two geographers, three forest ecologists and two
geologists. There was, therefore, much discussion about various landscape processes. Some
of that material appears here. A report on the dendrochronology work done this summer on
island spruce trees and drift wood appears on Page 35. Species lists and images of habitat,
flora and fauna for each island are included in the sections below. A complete listing of
documented species may be found in Appendices 1 & 2.
1 The group of small islands at the mouth of Paakumshumwaau (the Old Factory River) and the estuary as a whole is known
in Wemindji as "Old Factory". The Old Factory Islands lie about 30 kilometers west of "Old Factory". To minimize
confusion, we will refer to these more distant islands as the "outer" Old Factory Islands.
5
Figure 1a. Location of Observation Sites for the 2009 Floral Surveys “Outer” Old Factory
Islands
Cape Hope Islands
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CULTURAL CONTEXT AND SIGNIFICANCE
Cree Perception and Modification of Land-/Seascape
To the eye of anyone first visiting the James Bay offshore environment, it seems a largely
uninhabited natural space, classic „wilderness.‟ But for the James Bay Crees, who have
inhabited it for millennia, and for descendants of Inuit who in the 1930s made Cape Hope
Islands their home – developing ties of intermarriage and friendship with the Cree
communities of Eastmain and Wemindji – the Tawich area is a culturally resonant place.
The coastal and offshore islands, points and channels are intricately named and intimately
known. The place names indicated in Figure 1b are but a small fraction of the over 300 Cree
place names that senior hunters have mapped with Colin Scott for the Wemindji portion of the
Tawich area. These names reflect many lifetimes of experience on the land and water,
evoking narratives of events, both remote in time and more recent, that are associated with
these places, as well as textured descriptions of the places named, and the life associated with
them.
The coastal Cree people say that the land is growing. By this they mean not only that all
things in the world are manifestations of burgeoning life, but that the land is literally
emerging from the sea. They cite many forms of evidence for this phenomenon. Local people
speak of places where ancient driftwood lies on rocky slopes high above contemporary high
tide marks, well beyond the most dramatic storm events. At Solomon‟s Temple Islands, a
scattering of driftwood lies nearly at the top of the island, more than 100 feet above sea level,
suggesting that it was deposited tens of centuries ago. Placenames along the coast bear the
names of marine uses (e.g. fishnet-setting place) that have since become impossible, because
these places have become part of the foreshore. Within the living memory of older Crees,
people can point to channels where hunters used to pass in canoes, now overgrown with
willow or flooded only on exceptionally high tides; portions of the foreshore that once were
grassy that have now become part of the forest‟s edge.
On closer inspection, there are artifacts of human modification throughout the Tawich area.
Seasonal camps, current and abandoned, with hearths and tent frames or cached poles (and,
more recently, cabins) and fish-drying racks, are located on several of the offshore islands.
These are purposely discrete; they do not jump out of the landscape, for they are bases for
hunting, and signs of human presence are best kept to a minimum. Typically, fall, summer
and winter camps are separately and uniquely located, as they are adapted to the specifics of
the seasonal activities conducted there. Offshore islands on a given family‟s hunting territory
often have camps for each of these three seasons, though winter camps are always on the
mainland or on near-shore, heavily-treed islands that afford protection from the windswept
bay.
Camps have occasionally been made on islands quite distant from the mainland. During the
field season just past, we encountered two abandoned camp sites on Old Factory Islands,
which appeared not to have been inhabited for several years, but had been used recently
enough that portions of a snowmobile suspension had been left at one.
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Hunting blinds of gathered stone or cut into dwarf conifer clumps are encountered on many
offshore islands. Low sod dikes are found on the foreshore flats of coastal bays, their purpose
to retain large ponds at which geese congregate on their migrations. For a time, these dikes
may forestall the gradually draining of these ponds, as the foreshore flats rise, eventually to be
cloaked in shrubs, then forest. Cut-ways to facilitate goose hunting, known as tuuhiikanh, are
made through the trees on forested peninsulas and on certain large, high islands.
Less visibly, there exist myriad water and ice routes for travel up and down the coast by
freighter canoe, snowmobile, paddling canoe and, in the past, dog team. Safe travel by
freighter canoe, in particular, demands knowledge of the landmarks and channels, and the
aspect of partially or wholly submerged navigational hazards in various conditions of tide and
weather. Preferred routes vary according to the strength and direction of the wind, visibility of
landmarks, etc. There are major thoroughfares known to every competent hunter in the
community, and other routes that are specific to the use of resources on particular family
hunting territories.
In cosmological terms, the Tawich area is rich in cultural imagining and practical knowledge
(Scott 1996). Tawich is a symbol of the immense power of the world, which humans must
respect. Several narratives in the categories of aatiyuuhkaan (myth) and tipaachimuun
(history, both legendary and recent) take place in coastal and offshore places (Scott 1982,
1992). Alliances of humans with marine animals figure prominently in these stories. There are
stories of humans who have visited underwater realms, where fabulous, multi-hued creatures
dwell. Features in the seascape are inhabited by ancestral spirits, vested with power and
demanding of respect. One dare not point at certain islands, for fear of provoking storms.
Significance in Cultural History
Cree interactions within the coastal and marine environment run deep historically, and have
been constantly evolving. Some 4,000 years ago, the coast was nearly 100 km inland, at Old
Factory Lake, which has yielded some of the earliest archaeological evidence of human
occupation in the Quebec subarctic, as documented by our archaeological sub-team, led by
André Costopoulos. Even three centuries ago, early in the fur trade, some portions of the coast
extended some distance inland from current high tide marks. A major 18th
century historical
archaeological site in the Poplar River area depended on coastal access no longer afforded by
receding shorelines. Frenchman‟s Island in the Old Factory River estuary, also an important
site of early European fur trade activity, would have no viable access today for a vessel larger
than a canoe. Both sites are described in David Denton‟s (2001) work. Wemindji Cree people
have been engaged in ethno-archaeological collaboration with both Denton and Costopoulos.
Perceiving the importance of the Old Factory River as a transportation route between the
coast and the interior, the Hudson‟s Bay Company set up its first trading operations on islands
in the Old Factory River estuary. It is probable that these islands were already the site of
summer gatherings, where people could support themselves with abundant fishing resources.
Such HBC trading posts throughout the region would become loci for missionary activities
and, in the 20th
century, the delivery of the first government-sponsored healthcare, education,
and other services offered to the Crees through the offices of company agents (Morantz 2002).
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Before the move to Wemindji in 1959, the majority of the community came together to fish,
socialize and trade in the summer months on two islands located at the mouth of the Old
Factory River. Both of these islands (Kaampaanii Minshtikw, „Company Island‟ and
Taawaasuu Minshtikw, „Trader Island‟) are now effectively connected by foreshore flats to
the mainland, due to isostatic rebound, though still partly accessible on high tides by freighter
canoe. The islands still have some old wooden structures on them, and together with
Upishtikwaayaau Minshtikw („Frenchman‟s Island‟) and other islands in the vicinity that
served warehousing functions, add to the historical and archaeological interest of the area.
The birth and burial places of many Wemindji people and their ancestors are located at Old
Factory.
The cultural and historical importance of the Old Factory estuary and the larger watershed has
become the focal point, each summer, of Wemindji‟s Old Factory Visit or annual cultural
„Gathering.‟ The Gathering site is on Akwaanaasuukimikw („Warehouse Island‟) next to
Frenchman‟s Island; the latter has yielded some of the earliest historical archaeology, having
intriguing resonance with Cree oral historical accounts (Denton 2001). During the annual
celebrations, participants welcome the arrival of the annual Youth Canoe Expedition, which
finishes at the „Gathering‟ Island. The canoe expedition retraces the steps of families who
traveled between the interior and the coast along the Old Factory River in their seasonal round
of hunting, fishing, trapping, trading and socializing as a community. A related event
commemorates the settlement relocation at the end of the 1950s by recreating the journey
from Old Factory to Wemindji, using paddling canoes rigged with makeshift sails. These
community events are occasions for people to reconnect with the past and teach traditional
skills to youth, in the tradition of learning by doing, while reinforcing community and cultural
identity.
Cree Use of Coastal and Marine Resources
The use of marine resources by Cree hunters is continuous, its patterns shifting over time
according to availability of resources and changes in the needed resources. Contemporary and
historical resource use of the coastal area by Wemindji hunters is detailed in a confidential
report prepared for purposes of the offshore negotiations of the Grand Council of the Crees
with the Government of Canada by Kreg Ettenger (2002), based in part on interviews with
senior Cree hunters, and also on extensive archival notes compiled by Toby Morantz (2000).
Other sources of information about contemporary uses of resources, terrestrial and offshore,
include the James Bay and Northern Quebec Native Harvesting Research Committee (1982)
and a report by Scott and Feit (1992).
Sea run whitefish and speckled trout are the staples of the summer subsistence fishery.
Fishing has long been, and remains, the principal summer subsistence activity, at a time of
year when other animals hunted and trapped during the fall, winter and spring are mainly left
alone to bear and rear their young. But coastal fishing occurs in all seasons, including winter
fishing through the ice with jigging apparatus, and nets set under the ice. When dog teams had
to be sustained, cod were also fished, but are rarely targeted nowadays.
During fall and spring, until very recent years, the majority of waterfowl hunting during the
migrations was conducted in the coastal corridor. The offshore islands are particularly
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important during the fall hunt, when geese staging in coastal bays, and on some of the larger
islands, set up diurnal feeding and resting patterns, transiting back and forth between the
mainland and the islands, and shifting between berries on the islands and eel grass in the
shallower waters of the bay, according to circumstances of wind and tide. During the spring
hunt, geese are more confined to the coastal bays, because most of the offshore remains
locked in snow and ice during the bulk of the migration.
In the past quarter century, there has been a shifting of Canada goose migration to inland
routes, for which Cree hunters cite a variety of reasons: the chain of vast reservoirs created by
the James Bay hydro-electric projects has altered options available to the geese; eel grass beds
have suffered dramatic declines; berry crops on the islands have been poor, in association
with a trend to hotter, drier summers; and geese have reacted also to the concentrations of
hunting effort and human presence along the coast by shifting inland.
The coastal corridor remains, however, an economically and culturally important waterfowl
area. In addition to Canada geese and Snow geese, Red-throated loons are hunted in the late
spring, and Brant geese in the late fall. Several productive duck marshes exist in the coastal
bays, and seaward, eiders, common loons, and other marine fowl are also taken. In years past,
eggs of terns, eiders, geese and gulls were gathered on the offshore islands, a practice that has
more recently declined in economic importance.
Seals for human food, dog food and sealskin for clothing have long been hunted in the late
fall by coastal Crees, both by canoe and from the seaward ice edge, though this practice too
has declined in economic importance. Younger Crees mostly do not have a palate for seal
meat (many „inlanders‟ never did); sled dogs have been replaced by snowmobiles; and the
improved warmth of commercially-available waterproof clothing has reduced local demand
for sealskin. Beluga whales, in years past, were also taken for human nourishment and to feed
dogs, but are no longer hunted by Crees, although the family of Inuit who hunt at Cape Hope
Islands still do take belugas for themselves and relatives. Polar bears are only rarely taken by
Crees at Wemindji.
Winter is the season at which Cree hunting activity in the offshore is lightest, though
numerous coastal hunting families make use of partly over-ice routes to access their hunting
camps and areas. Trapping of foxes and owls on offshore islands was a significant winter
activity historically for coasters, and is practiced to some extent to the present day, though
depressed fur prices have had an impact. Snowshoe hares and ptarmigan, and occasionally
arctic hare, are also taken on offshore islands.
Offshore islands are also important sites for gathering a variety of other resources: berries,
firewood, drinking water, and driftwood cedar for carving – cedar is not native to the area, but
is borne by sea currents from the estuaries of large rivers at the south end of James Bay. Local
Inuit also gather mussels, sea urchins and edible seaweed – resources not generally used by
Crees.
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Coastal and Marine Tenure and Resource Management
The leaders of seven Wemindji family hunting territories have affirmed strong interest in
inclusion of their marine areas with the proposed Tawich NMCA. From north to south these
territories are known by the trapline numbers VC-9, VC-10, VC-11, VC-12, VC-13, VC-17,
and VC-14 („VC‟ stands for Vieux Comptoir, the French name for Old Factory, which was
the trading post and summer camp gathering for the Wemindji people at the time that family
hunting territories were recognized as „registered traplines‟ by the Quebec Government in the
1940s).
Socially beneficial from the standpoint of resource stewardship and coordination of hunting,
fishing and trapping, the customary tenure system of family hunting territories regulates
different resource harvesting activities in different ways, and to differing extents (Scott 1986,
1988). Because many offshore islands (for example, Walrus Island, Blackstone Islands, Goose
Island, etc.) are important habitat for geese that stage in the various coastal bays or on the
larger offshore islands themselves, they come under the authority of a „shooting boss‟
(paasischaau uuchimaau) for each family territory. The winter „tallyman‟ (amisk uuchimaau
or „beaver boss‟) on the adjacent mainland is also the paasischaau uuchimaau for fall and
spring goose hunting, and if there is more than one hunting group on a family territory, the
authority of additional uucimaauch is recognized.
The more distant offshore islands are more rarely hunted, and are not subject to regular and
routine oversight by the hunting bosses. Due to their remoteness, such oversight has been
neither necessary nor feasible. These more distant areas are regarded as community commons,
and are understood to serve the purpose of sanctuaries where nesting waterfowl, for example,
and a diversity of other wildlife remain generally undisturbed, although occasional hunting
trips are undertaken, particularly for Canada geese. In general, the more remote offshore
islands support larger populations of nesting waterfowl than islands closer to the coast, and
are important loci of resilience in regional waterfowl numbers, given reduced migrations
along the coast.
The continuity and complementarity of land and sea are important themes in the socio-
ecological discourse of Cree hunters. In a conversation at Cape Hope Islands, at the camp of
George and Louisa Kudlu, the Cree hunter Fred Blackned commented on the elders‟ view that
every living resource in the bush has its counterpart in the sea – the black bear and the polar
bear, the beaver and the seal, and so on. The expertise of Inuit is to use more things from the
sea, while that of Crees is to use more things from the bush, but there is a broad range of
overlapping skill in the use of fish, waterfowl and other animal and plant resources. From the
early decades of the 20th
century, when active hostilities between Crees and Inuit ceased,
people from the two traditions have shared their knowledge and sometimes hunted together.
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WESTON ISLAND, July 27 & 31, 2009
Figure 3. Weston Island: a). Freshwater ponds; many broods of ducks and geese; b.) central
Weston: low stabilised dune fields and beach ridges, bogs and small ponds; c.) bears; d.)
beach ridges; e.) SE extent of gravel ridge; f.) high (<20 m) gravel ridge forms south shore of
Weston; and wide sandy beach is sheltered from N wind; g.) plateau slopes north from ridge
with a few small ponds and many geese; h.) Leymus mollis (dune grass) and dune field.
a.
b.
d.
c.
f.
e.
g.
h.
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General Ecosystem Description
Two short trips were made to Weston Island on separate days. A pair of polar bear cubs with
their mother (Fig. 2c) were spotted from the helicopter as our pilot sought a landing place at
the centre of Weston Island to drop off the first members of the team. We had planned to hike
across the island's narrow mid point and then turn north. Instead, we landed on the high ridge
(2f) at the southern-most edge of the island and returned another day to briefly visit the
middle and northern sectors. On his return from Weston to pick up the remaining team
members, the pilot observed a pod of “at least eight” beluga on the eastern side of Old Factory
Islands. On their way to Weston, the second half of the team was flown over the Old Factory
Islands and in the 10-15 minute ride between Old Factory Islands and Weston Island, three
individual belugas were seen in separate sightings.
We counted approximately two hundred Canada geese on the portions of Weston that we
walked or over-flew, most of them in flightless condition. (On the July 31 re-visit, we saw
larger numbers of flightless geese, as we went to north side of the island with its numerous
ponds and small lakes).
During the day of the 27th
, on a flight to refuel at Wemindji a beluga was sighted in the outer
estuary of the Poplar River. On two separate days in the previous week we had seen a beluga
going into the estuary of the Old Factory River. The Inuk hunter George Kudlu, whose camp
is at Cape Hope Islands, says they go into fresh water to shed skin. At the end of the
afternoon, on the return trip from Weston, a solitary beluga was sighted just east of Weston,
and two belugas just west of Blackstone Islands. On departure from Weston on the 31st, a
beluga was seen immediately to the east of the island. Mike Hamel (personal communication,
Cape Hope Islands, August 2009) says current estimates of beluga whale numbers in James
Bay are 8,000-16,000, and that they seem to be a discrete population. This is the fourth largest
beluga population in Canadian waters.
The southern ridge (~20 m above sea level) drops off to the wide sand beach (Fig. 2f) that
curves along the length of this face of the island. An arctic maritime heath dominated by
Dryas integrifolia, Empetrum nigrum, Shepherdia canadensis and dwarf willows (Fig. 3a)
provides sparse cover on the sandy gravel of the ridge top. Abundant fireweed and shrubby
willows stabilize the face of the ridge and prevent the sand and gravel from washing away.
Further down slope, willows and empetrum have colonized the dunes. The wide (~10 m)
white beach below (Fig. 2f), similar in many ways to the southern beach at South Twin, is
relatively empty except for the footprints of geese. Driftwood is scarce. A narrow row or two
of pale white kelp, fucus, other vegetation and debris marks the tide line.
On this island, marine fauna sampling only took place on the southern beach. The intertidal
and near subtidal area is characterised by large zones of bare sand, rocky zones covered in
vegetation and bare rocky zones. It is gently sloping down. Marine fauna encountered
included Macoma balthica, Blue mussels, Green sea urchin and Iceland Scallops (Fig. 3g; a
new addition to our cumulative list of species for the area). The presence of very abundant
juvenile (15-20mm) sculpins (Fig. 3h), along with also very abundant scuds, in the beach
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seining samples is noteworthy as it suggests that this area is a nursery ground for this fish
species.
This southern half of the island is approximately 5 km across at its widest point. The
relatively dry plateau slopes upwards to the height of land to the east. Toward the north, the
land drops gradually to wetter ground at the island's centre. The low vegetation (Salix species,
and empetrum and Epilobium angustifolium are abundant) consists mainly of tundra species
scattered with small thickets of spruce. Ptarmigan droppings were densely distributed in
thickets of stunted white spruce.
Westward a broad dune field slopes to the shore (Fig. 2h). This is a dynamic landscape in
which the work of wind and plant colonization is evident. Most remarkable are the
symmetrical willow-capped mounds that rise 4-5' above the sand and gravel (Fig. 2h). Closer
to the shoreline, much shallower mounds of sand are topped by dead tangled of roots (Fig.
3c). Both mounds and exposed wood seem to be the result of intense wind erosion of
formerly vegetated land. Sand around the willow mounds has been worn away by the wind
while the creeping willows held their own. The exposed dead branches, also the result of
erosion processes, were covered by sand at one time (this killed the plant), which has now
been blown away again. In Figure 2h, Leymus mollis is beginning to reclaim the dunes.
At the centre of Weston, which is flat and poorly drained, bogs and ponds are the main
landscape features (Fig. 3f). The terrain around them is very wet and boggy. Menyanthes
trifoliatum, Potentilla palustris, dwarf willows and ericaceous plants thrive in the wet
sphagnum where nothing grows higher than 10” (30 cm?) tall. Taller willow shrubs are
supported wherever the land rises slightly.
The broad north end of this island, which is shaped like an hourglass, is also low lying and
wet, though it is sandy and silty rather than boggy and there are many boulders. Exposed to
wind, waves and ice, it is laced with salt and fresh water ponds. Geese and ducks inhabit the
ponds and flats surrounding them (Fig. 2a). The sparse flora at this end of the island consists
of Glaux maritima, creeping willows, and other hardy maritime species.
15
Table 1. Terrestrial Flora at Weston Island July 27 and 31, 2009
Achillea millefolium L.
Andromeda glaucophylla Link Argentina egedei (Wormsk.) Rydb. subsp.
groenlandica (Tratt.) A. Löve Artemisia campestris L. ssp. canadensis
(Michx.)
Bistorta vivipara (L.) Delarbre
Botrychium lunaria (L.) Sw.
Campanula rotundifolia L.
Castilleja septrionalis Lindl. Chamerion angustifolium (L.) Holub subsp.
angustifolium
Chamerion latifolium (L.) Holub.
Comarum palustre L.
Draba aurea Vahl ex Hornem.
Dryas integrifolia Vahl subsp. integrifolia Empetrum nigrum L. subsp. hermaphroditum
(Lange ex Hagerup) Böcher
Euphrasia frigida Pugsley Fragaria virginiana Duchesne subsp. glauca (S.
Wats.) Staudt Gentianella amarella (L.) Börner subsp. acuta
(Michx.) J. Gillett
Glaux maritima L.
Hippuris tetraphylla L. f.
Hippuris vulgaris L. Honckenya peploides (L.) Ehrh. subsp. diffusa
(Hornem.) Hultén
Juncus balticus Willd.
Juniperus communis L. var. depressa Pursh Kalmia procumbens (L.) Gift, Kron & P.F.
Stevens ex Galasso, Banfi & F. Conti
Larix laricina (Du Roi) K. Koch
Leymus mollis (Trin.) Pilger subsp. mollis
Ligusticum scoticum L. subsp. scoticum Menyanthes trifoliata L. subsp. verna (Raf.)
Gervais & Parent
Orthilia secunda (L.) House
Parnassia palustris L. subsp. neogaea (Fern.) Hultén
Petasites frigidus (L.) Fries var. sagittatus (Banks ex Pursh) Cherniawsky
Picea glauca (Moench) Voss
Pinguicula vulgaris L. subsp. vulgaris
Polygonum fowleri B.L. Robins. subsp. fowleri
Potentilla bimundorum Soják
Potentilla nivea L.
Primula egaliksensis Wormsk. ex Hornem.
Primula stricta Hornemann
Pyrola grandiflora Radius
Ranunculus cymbalaria Pursh
Rhinanthus minor L. subsp. minor Rhododendron lapponicum (L.) Wahlenb. var.
lapponicum
Ribes hirtellum Michx.
Rubus arcticus L. subsp. acaulis (Michx.) Focke
Rubus chamaemorus L.
Rumex subarcticus Lepage also ofi
Sagina nodosa (L.) Fenzl subsp. borealis Crow
Salix candida Flügge ex Willd.
Salix planifolia Pursh
Salix reticulata L. subsp. reticulata
Saxifraga aizoides L.
Saxifraga tricuspidata Rottb.
Shepherdia canadensis (L.) Nutt.
Sibbaldiopsis tridentata (Aiton) Rydb.
Spiranthes romanzoffiana Cham.
Stellaria crassifolia Ehrh.
Tanacetum bipinnatum (L.) Schultz-Bip.
Tofieldia pusilla (Michx.) Pers
Trichophorum caespitosum (L.) Hartman
Vaccinium oxycoccos L.
Vaccinium uliginosum L. Vaccinium vitis-idaea L. subsp. minus (Lodd.)
Hultén
16
Figure 3. Weston Island, from upper left: a.) arctic heath vegetation; b.) willow mounds; c.)
buried willows d.) mid island bog; e.) Saxifraga aizoides in bog; f.) numerous ponds at north
end of island; g.) Iceland Scallop shells (Chlamys islandica); and h.) juvenile sculpin.
b.
. a.
c. d.
e. f.
h. g.
17
Table 2.Marine, avian and terrestrial fauna at Weston Island July 27, 2009.
Category Common name Latin name Confidence Details
Pelagic Invertebrates
Scud Gammarus sp. High
Benthic invertebrates
Macoma Macoma balthica High
Mussels Mytilus edulis High
Green sea urchin
Stronglocentrotus droebachiensis High
Iceland Scallop Chlamys islandica Med-High
Fish Sculpin sp? Myoxocephalus sp. High Several hundred small individuals (15-20mm)
Birds Canada goose Branta canadensis High
Whimbrels Numenius phaeopus High Large flock of about 20 individuals
Common eiders Somateria mollissima Med
Mammals Polar bear Ursus maritimus High Mother & 2 cubs
Fox Vulpes sp. low Scat
18
OLD FACTORY ISLANDS, July 30 & 31, 2009
Figure 4. Old Factory Islands: a.) north beach dominated by Honkenya peploides; Ligusticum
scoticum above eastern beach; c.) north-eastern beach colonized by Rumex subarcticus; d.)
bog; e.) large pond populated with sparghanium and menyanthes.
General Ecosystem Description
Terrestrial
The largest island in the Old Factory group is approximately 5 km long. Like Weston and
South Twin it is a sandy island, low lying and windswept, with many small ponds and bogs.
Fire rings and a pile of spruce poles on its eastern extremity indicate that hunters have camped
here in the early spring (there are a few skidoo parts and remnants of old goose decoys)
though likely not in the past ten years (Fig. 5g). A spine of higher ground runs the length of
the island. Beach ridges are clearly visible on its flanks (Fig. 5e). Caribou spend some part of
e.
d.
b. a.
c.
19
the winter on these islands – signs of grazing and numerous droppings were seen on the
northeastern slope of the main island. A family of wolves has made its home here, and wolves
appear to be in perennial residence, as evidenced by an abandoned wolf den that we saw.
Fresh footprints were evidentalong extensive stretches of beach on the north side of the island
(Fig. 5c) and we heard wolf calls at dawn. The absence of flightless Canada geese, abundant
on the other islands such as Weston – and numerous remains of goose carcasses – attest to the
wolves‟ appetite and hunting skills. Cree hunters remarked that when wolves are present
geese are fewer. Roughly 30-40 Canada geese were observed on the northwestern sector of
the main island, all taking wing at human approach, and more geese were heard beyond the
ridge to the west. A dozen or so Arctic loons, singly and in pairs, were observed on large
ponds bordered by extensive cloudberry fields in the boggy northwestern sector of the main
island. Ptarmigan were sighted by two team members in the central northern sector of the
main island. Numerous rodent trails were noted adjacent to boggy areas.
The vegetation on higher ground is tundra-like, dominated by lichens, empetrum and Dryas
integrefolia and Juniperus communis. Small thickets of spruce are widely scattered across the
island. Some of the spruces are quite tall (5-7 m high). Parts of the island toward the north end
are very wet. There are numerous ponds and extensive bogs that host an interesting variety of
ericaceous plants, members of the orchid family and masses of Rubus chamaemorus. Berries
of all kinds including Rubus arcticus, Vaccinium vitis-idaea, V. uliginosum, and Empetrum
nigrum are abundant. We saw many more ripening berries here than on other islands, perhaps
because the local nesting goose population had been depressed by the wolves.
The presence of seal bones on upland portions of island suggests that they may have been
carried there by polar bears, or by scavengers at polar bear kills. Cree hunters report
occasional sightings of polar bears on Old Factory Islands.
The shoreline on the north and eastern shores is scalloped with wide coves and sandy or
cobbled beaches (north). Each beach has been colonized by a different plant. Ligusticum
scoticum surrounded one beach, behind it was a field of Chamerion angustifolium. Sibbaldia
tridentata (attended by many bees) was abundant at the edges of the sand to the south. The
next beach held only Rumex subarcticus. On the northern edge of the island we found beaches
covered entirely by Honkenya peploides (Fig. 4a.), and another, much rockier beach with a
large colony of Glaux maritima and no Honkenya.
The processes of colonization and erosion are much in evidence on this island too. On the east
side of this island the gradual process of plant colonization. Further inland, as Fig. 5b shows,
erosion has begun aided by animal activity (note the abandoned wolf den in the centre of the
photo, see also 5f for a clearer view). These patches of exposed and eroding sand covered
many acres.
Intertidal and subtidal
The intertidal and shallow subtidal zones of the north-eastern portion of this island are
generally characterised by gentle slopes and host a series of smaller to larger bays. Some of
these are mostly sandy with little vegetation, whereas others have sandy bottoms covered with
boulders and even pebbles, and generally host more vegetation and fauna (Fig. 5a). One very
20
large bay is noteworthy for having a wide shallow intertidal zone, below a series of sandy
beach ridges (Fig. 5h).
The marine vegetation in the shallow subtidal zone is dominated by kelp and Fucus bifida,
which generally grows in sheltered areas surrounding small to medium boulders (Fig.5i).
Walking north, towards the channel, other species of marine plants start appearing, consistent
with last year‟s report of very abundant and diverse marine vegetation observed while scuba
diving in the channel. Marine fauna encountered includes Periwinkle (Littorina sp.), Macoma
balthica, Soft shelled clam (Mya arenaria), Blue Mussels, Green Sea urchins, Iceland Scallop
(Chlamys islandica) as well as Iceland cockle (Clinocardium ciliatum) (Fig. 5j), a new
addition to our cumulative list of species for the area. Finally the presence of abundant
shorebirds is also noteworthy. Species identified include Rudy turnstones, Killdeers,
Semipalmated sandpipers, Semipalmated plovers, as well as large flocks (some gathering 80
individuals) of Whimbrels. Other marine birds observed include scoters, Canada geese, Red-
throated loons and common eider.
21
Figure 5. 'Outer' Old Factory Islands: a.) Rusty red fucus on the north channel; b.) dune
formation; c.) wolf tracks; d.) beach ridges; e.) beach boulders; f.) wolf den; g.) old campsite;
h.) wide beach with series of beach ridges; i.) Fucus bifida; and j.) Iceland cockle.
b.
.
d.
. e. c.
f.
a.
.
g
.
i. j. h.
b.
..
22
Table 3. Terrestrial Flora at "outer" Old Factory Islands, July 30 & 31, 2009.
Achillea millefolium L. Andromeda glaucophylla Link Argentina egedei (Wormsk.) Rydb. subsp.
groenlandica (Tratt.) A. Löve Betula glandulosa Michx. Bistorta vivipara (L.) Delarbre Botrychium lunaria (L.) Sw. Campanula rotundifolia L. Carex bigelowii Torrey ex Schwein. subsp.
bigelowii Castilleja septrionalis Lindl. Chamerion angustifolium (L.) Holub subsp.
angustifolium Chamerion latifolium (L.) Holub Comarum palustre L. Draba incana L. Drosera rotundifolia L. Dryas integrifolia Vahl subsp. integrifolia Empetrum nigrum L. subsp. hermaphroditum
(Lange ex Hagerup) Böcher Festuca rubra L. Fragaria virginiana Duchesne subsp. glauca (S.
Wats.) Staudt Glaux maritima L. Hippuris tetraphylla L. f. Hippuris vulgaris L. Honckenya peploides (L.) Ehrh. subsp. diffusa
(Hornem.) Hultén Juncus balticus Willd. Juniperus communis L. var. depressa Pursh Ligusticum scoticum L. subsp. scoticum Limosella aquatica L.
Menyanthes trifoliata L. subsp. verna (Raf.) Gervais & Parent
Pedicularis groenlandica Retz. Picea glauca (Moench) Voss Picea mariana (P. Mill.) B.S.P. Pinguicula vulgaris L. subsp. vulgaris Primula egaliksensis Wormsk. ex Hornem. Ranunculus cymbalaria Pursh Rhinanthus minor L. subsp. minor Rhododendron groenlandicum (Oeder) K.A.
Kron & W.S. Judd Rhododendron tormentosum subsp subarcticum Ribes hirtellum Michx. Rubus arcticus L. subsp. acaulis (Michx.) Focke Rubus chamaemorus L. Rumex subarcticus Lepage Saxifraga tricuspidata Rottb. Shepherdia canadensis (L.) Nutt. Sibbaldiopsis tridentata (Aiton) Rydb. Sparganium hyperboreum Laest. Spiranthes romanzoffiana Cham. Stellaria crassifolia Ehrh. Tanacetum bipinnatum (L.) Schultz-Bip. Tofieldia pusilla (Michx.) Pers Trichophorum alpinum (L.) Pers. Tripleurospermum maritimum (L.) W.D.J. Koch
ssp. maritimum Vaccinium uliginosum L. Vaccinium vitis-idaea L. subsp. minus (Lodd.)
Hultén Viola labradorica Schrank
23
Table 4. Marine, avian and terrestrial fauna at "Outer" Old Factory Islands July 30 & 31, 2009
Category Common name Latin name Confidence Details
Benthic invertebrates
Lug worm Arenicola marina High
Periwinkle Littorina sp. (saxatilis?) Med-high
Macoma Macoma balthica Med-high
Soft shelled clam Mya arenaria High
Mussels Mytilus edulis High
Green sea urchin Stronglocentrotus droebachiensis
High
Iceland cockle Clinocardium ciliatum Med-high
Iceland Scallop Chlamys islandica Med-High
Birds Scoter? Melanitta sp. ? Med
Rudy turnstone Arenaria interpres High
Canada goose Branta canadensis High
Killdeer Charadrius vociferus High
Semipalmated plover
Charadrius semipalmatus
Med
Semipalmated sandpiper
Calidris pusilla Med
Red-throated loon Gavia stellata High
Whimbrels Numenius phaeopus High Very large flock of about 80 individuals
Common eiders Somateria mollissima Med
Mammals Grey wolf Canis lupus occidentalis High 2 individuals; prints, den and howling
_ Woodland caribou Rangifer tarandus High Very abundant scat
24
"CABIN” ISLAND, July 29, 2009
Figure 6. "Cabin” Island. a.) Sandy (north eastern) point and upper beach with Leymus
mollis; Heracleum maximum, Lathyrus japonicum, Hordeum jubatum; b.) Chamerion
angustifolium higher up on the same beach; c.) beach with cobbles and boulders on the southern
side of the island d.) edge of spruce forest at the centre of the island; e.) Campanula
rotundifolia on rocky outcrops; f.) rock pool above northern beach.
a
c
d
b
e
f
25
General Ecosystem Description
Terrestrial
The 'cabin‟ island is one of many at the mouth of the Old Factory River. It is similar in many
ways to the gathering island, described last year though it is about a third smaller. The higher
ground at its centre supports a small lichen-spruce forest and thickets of tangled alders.
Balsam poplars and Sorbus decora are also present. In the understory one finds typical boreal
plants such as Linnaea borealis, Trientalis borealis and Rhododendron groenlandicum. A
long spit of sandy beach stretches out at the north east corner, while beaches to the south,
north and west are rockier. Honkenya peploides, Plantago maritima, Triglochin maritimum
are plentiful. On the eastern and northern beaches a wide swath of Leymus mollis and
Lathyrus japonicus begins at the high tide mark. On higher ground Rubus ideaeus, Rubus
arcticus, Ribes Hirtellum and Chamerion latifolium along with several grasses are found. The
exposed western side of the island is a wide rocky meadow with grasses, carex, lathyrus and
Hordeum jubatum.
Intertidal and subtidal
Most of the beaches around this small island are covered with rocks and boulders, which are
covered with sediments. Marine vegetation, comprising mostly Fucus bifida with a few other
species, generally grows in low density with some denser patches. All around the island
Periwinkles are relatively abundant and exhibit a range of colour variations, from pale grey to
brownish orange.
Table 5. Marine, avian and terrestrial fauna at "cabin" Island, July 29, 2009
Category Common name Latin name Confidence
Pelagic Invertebrates
Scud Gammarus sp. High
Mysid shrimps Mysis sp.
Benthic invertebrates
Periwinkle Littorina sp. (saxatilis?) Med-high Macoma Macoma balthica High
Mussels Mytilus edulis High
Birds Herring gull Larus argentatus High
Greater Yellowlegs Tringa melanoleuca Med
Artic tern Sterna paradisaea High
26
Table 6. Terrestrial plant species on the "cabin” island, July 29, 2009
Achillea millefolium L. Alnus viridis (Villars) DC. in Lam. & DC. subsp.
crispa (Dryand. ex Ait.) Turrill ex Ait. Anemone multifida Poir. ex Lam. var. multifida. Arctanthemum arcticum (L.) Tzvelev Arctostaphylos uva-ursi (L.) Spreng. Argentina egedei (Wormsk.) Rydb. subsp.
groenlandica (Tratt.) A. Löve
Campanula rotundifolia L. Carex aquatilis Wahlenb. var. aquatilis Carex bigelowii Torrey ex Schwein. subsp.
bigelowii Carex garberi Fern. Chamerion angustifolium (L.) Holub subsp.
angustifolium Draba incana L. Dryopteris carthusiana (Vill.) H.P. Fuchs Elymus trachycaulus (Link) Gould ex Shinners Empetrum nigrum L. subsp. hermaphroditum
(Lange ex Hagerup) Böcher Euphrasia frigida Pugsley Fragaria virginiana Duchesne subsp. glauca (S.
Wats.) Staudt
Gentianella amarella (L.) Börner subsp. acuta (Michx.) J. Gillett
Gentianopsis nesophila (Holm) Iltis Heracleum maximum Bartr. Honckenya peploides (L.) Ehrh. subsp. diffusa
(Hornem.) Hultén
Hordeum jubatum L. subsp. jubatum Iris versicolor L. Juncus balticus Willd. Juniperus communis L. var. depressa Pursh Lathyrus japonicus Willd. Leymus mollis (Trin.) Pilger subsp. Mollis Ligusticum scoticum L. subsp. Scoticum Linnaea borealis L. subsp. longiflora (Torr.)
Hultén Listera cordata (L.) R. Br. var. cordata Lycopodium complanatum L. Menyanthes trifoliata L. subsp. verna (Raf.)
Gervais & Parent Packera pauciflora (Pursh) Parnassia palustris L. subsp. neogaea (Fern.)
Hultén Picea glauca (Moench) Voss Plantago maritima L. subsp. juncoides (Lam.)
Hultén Poa eminens J.Presl Polygonum fowleri B.L. Robins. subsp. fowleri Populus balsamifera L. ssp. balsamifera Prenanthes racemosa Michx. var. racemosa Primula egaliksensis Wormsk. ex Hornem. Pyrola grandiflora Radius Ranunculus cymbalaria Pursh Rhinanthus minor L. subsp. minor Rhododendron groenlandicum (Oeder) K.A.
Kron & W.S. Judd
Ribes glandulosum Grauer Ribes hirtellum Michx. Rubus arcticus L. subsp. acaulis (Michx.) Focke Rubus idaeus L. subsp. strigosus (Michx.) Focke Salix planifolia Pursh Shepherdia canadensis (L.) Nutt. Spiranthes romanzoffiana Cham. Stellaria crassifolia Ehrh. Symphyotrichum puniceum (L.) A. Löve &
D. Löve var. puniceum Tanacetum bipinnatum (L.) Schultz-Bip. Trichophorum alpinum (L.) Pers. Trichophorum caespitosum (L.) Hartman Trientalis borealis Raf. ssp. borealis Vaccinium uliginosum L. Vaccinium vitis-idaea L. subsp. minus (Lodd.)
Hultén
27
BLACKSTONE ISLANDS, July 28, 2009.
Figure 7. Blackstone Island: a.) rock slabs dominate island north and south; b.) south –facing
cliff with sorbus and other southern species at base; c.) ancient driftwood high up on raised
beaches; d.) View from cliff of sandy beach in lower right corner; e.) sandy beach sheltered
from north winds by forest and cliff; f.) gravel raised beaches in central areas, vegetation is
mainly empetrum and salix; g.) fresh water pools.
General Ecosystem Description
This group of islands lies a few kilometres out form Blackstone Bay, north of the Old Factory
estuary and islands. We landed on the largest of the islands. It is an island of mixed habitats
Belugas
here
Rafts of mergansers, many broods of eiders
Many signs of caribou
Belugas
Broods of eiders, loons
a
.
. b
g
e
d
c
f
28
that hosts caribou as well as many geese, ducks, loons and shore birds. Upon our arrival in the
the morning, two dozen geese fled the vicinity of our landing, at first running on the ground
and appearing still flightless from the molt, but the majority eventually took flight, while one
or two geese had insufficiently developed flight feathers to be able to do so.
Two team members in observations separated by about an hour witnessed a group of three
belugas working a rip current across the mouth of a small bay on the western side of the
island; possibly the same group of whales. Later we saw a beluga in the channel between
Kaawiipinikaach (the larger island on which we landed) and Kaawiipinikaash (the smaller
island).
There were signs of winter grazing of ground mosses by a small herd of caribou, with
droppings scattered over a few thousand square meters on the western side of the island. A
small bear had left footprints in the mud of a nearly dried-out pond on an upper ridge.
The cobbled and gravelly terrain indicates the raised beaches that make up this island. Rocks
(Fig. 8a) are heavily marked with black and grey lichens. Boreal forest plant species
including Sorbus decora are found in protected places at the base of cliffs (Fig. 7e). Arctic
species are evident on the windy outer reaches of the island. Dwarf tamaracks (Fig. 8b) and
spruces shelter at the edges of rock pools. Empetrum, vacciniums and salix species (8b)
carpet the ground between beach ridges. About half way between the height of land and the
water, great quantities of very old, dry driftwood balances on the rocks (Fig. 7f). An extended
description of this driftwood is offered in the Dendrology section, page 24.
Most of the marine sampling for this island took place in a small shallow (3-4 feet deep) bay
just north of the channel between the main island and a smaller island to the south east. This
was a boulder-strewn beach with some large sloping rocks slabs on the north side. The marine
vegetation is dense and comprises a Fucus bifida forest with some large kelp and other
species including Irish moss. Marine fauna observed includes Periwinkles, Lug worms,
Macoma balthica, scuds as well as blue mussels. In the channel, Sea gooseberries
(Pleurobrachia sp.) were also observed. Several bird species were also observed, as well as
three adult beluga whales.
29
Table 7. Marine, avian and terrestrial species at Blackstone Island, July 28, 2009.
Category Common name Latin name Confidence Details
Pelagic Invertebrates
Sea gooseberry? Pleurobrachia sp. Med.
Scud Gammarus sp. High
Benthic invertebrates
Lug worm Arenicola marina High
Periwinkle Littorina sp. (saxatilis?)
Med-high
Macoma Macoma balthica High
Mussels Mytilus edulis High
Birds Greater Yellowlegs Tringa melanoleuca Med
Canada goose Branta canadensis High
Sandpiper sp. low
Black Guillemot Cepphus grylle High
Common loon Gavia immer High
Herring gull Larus argentatus High
Whimbrels Numenius phaeopus High
Common eiders Somateria mollissima Med-high Mothers with chicks
Artic tern Sterna paradisaea High
Mammals Beluga Delphinapterus leucas
High 3 adults
30
Figure 8. Blackstone Islands. From top left: a) empetrum heath on raised beaches; b) dwarf Larix
laricina beside rocks pool; c & d) sheltered cove with abundant underwater vegetation and loons,
e.) fucus 'forest'; and, f.) dense underwater vegetation.
c. d.
a. b.
e. f.
31
Table 8. Terrestrial Flora at Blackstone Island, July 28, 2009.
Andromeda glaucophylla Link Androsace septentrionalis L. subsp.
septentrionalis Arctanthemum arcticum (L.) Tzvelev Arctostaphylos uva-ursi (L.) Spreng. Argentina egedei (Wormsk.) Rydb. subsp.
groenlandica (Tratt.) A. Löve Bistorta vivipara (L.) Delarbre Chamerion angustifolium (L.) Holub subsp.
angustifolium Chamerion latifolium (L.) Holub Cornus canadensis L. subsp. canadensis Empetrum nigrum L. subsp. hermaphroditum
(Lange ex Hagerup) Böcher Fragaria virginiana Duchesne subsp. glauca (S.
Wats.) Staudt Hippuris vulgaris L. Honckenya peploides (L.) Ehrh. subsp. diffusa
(Hornem.) Hultén Huperzia selago (L.) Bernh. ex Mart. & Schrank
s.l. Kalmia procumbens (L.) Gift, Kron & P.F.
Stevens ex Galasso, Banfi & F. Conti Larix laricina (Du Roi) K. Koch Ligusticum scoticum L. subsp. scoticum Limosella aquatica L.
Lycopodium annotinum L. Menyanthes trifoliata L. subsp. verna (Raf.)
Gervais & Parent Orthilia secunda (L.) House Picea glauca (Moench) Voss Pinguicula vulgaris L. subsp. vulgaris Platanthera obtusata (Banks ex Pursh) Lindl.
subsp. obtusa Pyrola grandiflora Radius Rhododendron groenlandicum (Oeder) K.A.
Kron & W.S. Judd Rhododendron lapponicum (L.) Wahlenb. var.
lapponicum Ribes hirtellum Michx. Rubus idaeus L. subsp. strigosus (Michx.) Focke Salix arctophila Cockerell ex Heller Salix reticulata L. subsp. reticulata Salix vestita remove Saxifraga paniculata P.Mill. Saxifraga tricuspidata Rottb. Shepherdia canadensis (L.) Nutt. Silene acaulis (L.) Jacq. Sorbus decora (Sarg.) C.K. Schneider Vaccinium uliginosum L. Vaccinium vitis-idaea L. subsp. minus (Lodd.)
Hultén
32
SOLOMON'S TEMPLE ISLANDS, July 31, 2009.
Figure 9. Solomon's Temple Islands. Clockwise from top left: a.) High plateau on spine of
largest island; b.) driftwood above beach on north side; c.) lichen-cranberry-empetrum; d.)
caribou; e.) gravel bars; f.) menyanthes in rock pools and „micro‟ bogs.
General Ecosystem Description
The cluster of small islands known as Solomon's Temple lies about 35 km southwest of
Wemindji and west of Moar Bay. We stopped very briefly at the largest island on June 30th.
The largest of the group curves slightly and is about 2 km in length and a half to three quarters
a.
f.
e. d.
c.
b.
33
of a kilometer wide. Unlike outer Old Factory islands to the south, these islands are higher
and rocky, similar to the volcanic rock of Cape Hope Islands to the south and Walrus Island to
the north. Although we saw no geese, there were many fresh tracks on the beaches. We saw
one caribou, perhaps caught in spring by the melting ice and isolated from the main herd.
(Fig. 9d). As we circled the cluster of islands before landing, a polar bear could be seen
swimming the channel between the largest island and a smaller island about a kilometer away,
to the northwest.
The central spine of the island slopes, often steeply, to cobbled beaches on the north and south
sides. Much of the central ridge is bare rock. The vegetation that has taken hold is a low dry
lichen heath of Empetrum nigrum, Vaccinium vitis-idaea and V. uliginosa, empetrum and
other ericaceae brightened by patches of Chamerion latifolia (Fig. 9c). Tofieldia pulsilla and
many species of carex inhabit the edges of shallow rock pools on the rocks. Small ferns and
mosses are hidden in damp rocky areas where they find protection from the wind. Masses of
driftwood (Fig. 9b) have piled up over the years above the boulder beaches on the northern
side of the island.
Table 5. Terrestrial Flora at Solomon's Temple Island, July 31, 2009.
Andromeda glaucophylla Link
Arctanthemum arcticum (L.) Tzvelev
Arctostaphylos rubra (Rehder & Wilson) Fernald Argentina egedei (Wormsk.) Rydb. subsp.
groenlandica (Tratt.) A. Löve
Bistorta vivipara (L.) Delarbre
Carex bicolor Bellardi ex All. Carex bigelowii Torrey ex Schwein. subsp.
bigelowii
Carex gynocrates Wormsk. ex Drej.
Carex nardina Fries
Cerastium alpinum L. Chamerion angustifolium (L.) Holub subsp.
angustifolium
Chamerion latifolium (L.) Holub
Draba incana L.
Dryas integrifolia Vahl subsp. integrifolia Empetrum nigrum L. subsp. hermaphroditum
(Lange ex Hagerup) Böcher Honckenya peploides (L.) Ehrh. subsp. diffusa
(Hornem.) Hultén Huperzia selago (L.) Bernh. ex Mart. & Schrank
s.l.
Juncus albescens (Lange) Fern. Kalmia procumbens (L.) Gift, Kron & P.F. Stevens
ex Galasso, Banfi & F. Conti
Ligusticum scoticum L. subsp. scoticum Menyanthes trifoliata L. subsp. verna (Raf.)
Gervais & Parent
Minuartia groenlandica (Retz.) Ostenf.
Orthilia secunda (L.) House
Picea glauca (Moench) Voss
Picea mariana (P. Mill.) B.S.P.
Pinguicula vulgaris L. subsp. vulgaris
Plathanthera aquilonis Sheviak
Polygonum fowleri B.L. Robins. subsp. fowleri
Primula egaliksensis Wormsk. ex Hornem.
Pyrola grandiflora Radius Rhododendron groenlandicum (Oeder) K.A. Kron
& W.S. Judd Rhododendron lapponicum (L.) Wahlenb. var.
lapponicum
Rubus chamaemorus L.
Rumex subarcticus Lepage
Sagina nodosa (L.) Fenzl subsp. borealis Crow
Salix arctophila Cockerell ex Heller
Salix candida Flügge ex Willd.
Salix reticulata L. subsp. reticulata
Saxifraga paniculata P.Mill.
Saxifraga tricuspidata Rottb.
Shepherdia canadensis (L.) Nutt.
Sibbaldiopsis tridentata (Aiton) Rydb.
Silene acaulis (L.) Jacq.
Spiranthes romanzoffiana Cham.
Stellaria crassifolia Ehrh.
Tofieldia pusilla (Michx.) Pers
Trichophorum caespitosum (L.) Hartman
Vaccinium uliginosum L. Vaccinium vitis-idaea L. subsp. minus (Lodd.)
Hultén
34
Figure 10: Solomon's Temple. Clockwise from the top: a.) Solomon's Temple Islands; b.)
Vaccininum uliginosum; c.) rocky arctic maritime heath; d.) caribou; e.) Chamerion
latifolium.
c. d.
b. e.
a.
35
DENDROCHONOLOGY SURVEY (S. Archambault)
Annual tree growth-rings can be used to determine tree age, but can also, if sampled correctly
(Fig. 11a), provide a wealth of information on a variety of subjects such as ecology
(population dynamics, insect infestations, fires), climate (proxy records of past climates,
extreme weather events) or even culture (dating of artefacts or human impacts on landscapes).
While some tree-ring work has been done in the past in the mainland James Bay region, the
islands of south-eastern James Bay do not seem to have ever been surveyed for that purpose.
The current work consists of a very preliminary investigation of a range of islands spanning a
65 km gradient from the nearshore (Gathering and Frenchman Islands) to offshore islands:
Blackstone Island (7 km offshore), Solomon‟s Temple (20 km), Outer Old Factory (27 km)
and Weston Islands (60 km). Growth form, tree age, crossdating potential and ease of
sampling were all investigated. In addition, some observations on subfossil driftwood were
made.
Tree cover and tree growth form
Nearshore islands (Gathering and Frenchman Islands) where both covered by moist, white
spruce (Picea glauca) forests growing on a thick moss-lichen carpet. Trees were mostly of
normal symmetrical growth form with some large specimens reaching diameters of 30-50 cm
(DBH).
All four offshore islands visited supported, in sharp contrast, very scant tree cover. The only
sizable forest stand could be found in a central depression on Blackstone Island, the nearest of
the offshore islands. Otherwise, on all exposed sites, very small krummholz clumps (rarely
more than 5-10 m in overall diameter) of white spruce were scattered across the landscape. In
most cases a central “mother” tree (height ˂ 5 m) was surrounded by concentric circles of
smaller trees of vegetative origin (layers) (Fig. 11b, c). Solomon‟s Temple Island, an island of
volcanic rock and very thin soil, was almost devoid of krummholz clumps, less than five
being observed. Weston and Old Factory Island, two islands with thick glacial outwash
deposits of sand and pebbles, supported more abundant tree clumps although always very
widely dispersed across the landscape.
The vast majority of tree clumps are alive, but some subfossil wood of local origin can be
found on certain islands. For instance a few dead tree clumps on Blackstone Island offer the
possibility to extend the colonization history of the island back in time (Fig. 11d).
Reference chronology
Large white spruces without visible growth anomalies growing on Gathering Island will form
the basis of a reference chronology, the first step in any dendrochronological work. The
objective is to obtain a regional ring width signal reflecting common growth conditions. A
total of 11 trees (2 cores/tree) were sampled for that purpose. After sample preparation, all
rings were dated, revealing two trees established around 1850 while the majority were
established in the late 1800s. Crossdating was rather straightforward with many diagnostic
rings, either narrow (2000, 1992, 1986, 1952, 1925, 1918, 1912, 1905) or large (1975, 1955)
and growth rate was quite large (avg. 2 mm). After ring-width measurement, a standardized
chronology for Gathering Island will be developed, permitting more extensive analysis.
36
Limited sample cores were taken in some white spruce clumps on the offshore islands. Short
available time, wide dispersion of tree clumps across the landscape as well as extreme
difficulty of sampling the compact tree clumps prevented more extensive sampling. Despite
these difficulties, two clumps were sampled on each of the outer islands. Indicative of harsh
growth conditions, growth form was often stunted (Fig. 11b) and ring widths extremely
narrow, with often more than five rings per mm. Maximum tree age is about 150 years with
one specimen on Old Factory Island reaching 170 years. Cross-dating with the Gathering
Island reference chronology was possible, indicating that large scale climatic factors are
indeed operating on tree growth.
Future dendrochronological developments
Crossdating potential of living white spruces across the landscape offers good possibilities for
further dendrochronological work both on ecological or historical aspects. For instance, tree
colonization of the slowly emerging islands could be better evaluated by dating the
installation of living as well as of currently dead tree clumps (Fig. 11d). Knowledge of recent
human occupation of the territory could also benefit from dendrochronological work by
dating, for instance, old tent poles, stumps or axe marks on trees.
Subfossils of foreign origin
Abundant driftwood can be observed on many of the beaches (Fig. 9b). This driftwood of
foreign origin has been transported by surface currents from the distant shores of James Bay
and possibly Hudson Bay. Since it is of foreign origin, it cannot be crossdated with the local
reference chronology. Even if its exact origin is unknown and if it is of no use for
dendrochronological purposes, its presence on the offshore islands, often many hundreds of
meters inland, could lend itself to interesting ecological or geomorphological studies.
For instance, on Old Factory Island, many decaying logs horizontally buried under a few cm
of sandy soil can be found far above the current high tide mark. Their presence would be
impossible to detect if not for the different vegetation that is now growing on the soil surface
Fig. 11e), thanks to the good growth medium and abundant nutrients offered by the hidden
decaying wood. The importance of this exogenous nutrient input as well as its impact on the
colonization of the island would be interesting to document.
On the eastern half of Blackstone Island, an area mostly covered with rock outcrops and
cobble and boulder fields, the fate of old driftwood is entirely different. Owing to the slow
isostatic rebound, driftwood can be found landlocked more than half a kilometre inland and
over 15-20 meters above the high tide mark. Resting on boulders, often as much as a meter
above ground, the old driftwood is extremely dry and its weathering increases dramatically as
one walks towards the highest (and oldest) parts of the island (Fig. 11f). Age of this subfossil
wood could very well be hundreds of years, if not over a thousand years old. Carbon-14
dating could allow more accurate description of the emergence pattern of south eastern James
Bay islands.
37
Figure 11: Dendrochronological and subfossil work. Clockwise from the top: a) Sampling
of tree-ring core; b) Stunted white spruce krummholz, Blackstone Island; c) White spruce
clone of layering origin with central “mother” tree; d) Subfossil white spruce clump,
Blackstone Island; e) buried decaying driftwood log with empetrum nigrum cover, outer Old
Factory Island; f) highly weathered driftwood more than 15 m above high tide mark,
Blackstone Island.
e.
a.
c.
d.
b.
f.
38
VISITOR EXPERIENCE
The 'visitor experience' to these extraordinary islands will need much careful consideration by
the Crees as well by people from Parks Canada. All of these islands have long been used by
the people who live on coasts of James Bay. Except for those islands close to the mainland
which are used constantly by the Crees, the outer islands are well known locally but are not
frequented. They are neither easily accessed nor easy to visit. Local people do visit to camp,
hunt and explore, but they do so with some caution. The islands, remote as they are, serve as
sanctuaries for nesting birds. Colonies of molting geese are large in summer, as are broods of
ducks and flocks of other birds. Caribou, wolves, foxes and polar bears are also at home there.
Although rough weather and fog can make travel by boat difficult and very slow, on a calm
clear day the trip to Weston takes no more than two hours. Helicopter access is much faster
but less reliable because frequent fog and rain patches on the Bay ground travelers until skies
are completely clear. This is not a place for unprepared tourists or the faint of heart. The
remoteness of the islands, though, is the quality that will likely be most attractive to visitors.
The presence of polar bears is significant. Encounters are always a possibility. Visitor
information and warnings would not be sufficient. Therefore, any visit to the outer islands
should only occur with Cree guides. It is also clear that these are not islands for intensive use
or for large crowds of people. Very small groups, accompanied by guides could, however, be
allowed to camp on the islands. Camp sites, while not sheltered, are easy to find and boat
landings are always possible. Fast flowing drinking water is not present but there are rock
pools on many islands and small ponds on others with water that can be treated or boiled.
While driftwood is plentiful on the islands, the use of dead wood for fire by visitors would be
problematic except perhaps for emergency reasons. As explained in the dendrochronology
section, decaying logs serve as nutrient sources for island vegetation. Removing quantities of
drift wood by burning it as firewood for visitors would interrupt these essential nutrient
cycles. Furthermore, on Blackstone Island and Solomon‟s Temple Islands, for example, there
are subfossil driftwood logs that are many centuries old. Burning them would destroy the
valuable information they hold about the emergence patterns of the island. Standing dead
spruces and dead branches from clonal stands similarly hold precious ecological information
and should not be burnt.
That said, there is enormous potential for interpretative and recreational visits to the island
under the right conditions. Interpretation could focus on many phenomena that can be
observed in this environment. The emergence of islands (fossil beach ridges, for example on
Old Factory Islands and Weston), plant colonization (especially the sandy outer islands),
deforestation processes, diverse ecosystems (Blackstone, Weston, Outer Old Factory and the
islands in Old Factory Bay), dune dynamics (Weston and Outer Old Factory). The area, from
the coast to the outer islands would be of enormous interest to bird watchers (all of the
islands). Fauna is abundant (shorebirds, flightless geese, caribou, wolves, beluga whales and
polar bears). The intertidal areas are fascinating and varied on every island as well as from
island to island. Those on the outer Old Factory Islands are especially diverse and interesting
for both the abundance of flora and fauna on rocky shorelines as well as beautiful sandy white
beaches. Belugas are thriving in James Bay and they can often be spotted around the islands
– this summer we spotted many from the air as well as from the Blackstone Islands. Guided
39
eco-adventure tours might include kayaking from campsites on near shore islands that could
be supervised by Cree guides, though kayaking is not traditionally a Cree skill. Bird watching
and exploring the intertidal vegetation and fauna of coastal islands would be of interest on the
near shore islands. Italian ornithologist Paolo Utmar visited Cape Hope Islands and a nearby
portion of the coastal mainland in 1990 for four weeks in August, during which period he
recorded sighting 75 species of birds (Utmar 1990). He concluded that this is a landscape of
high value and interest for naturalists, of potential interest to birdwatchers from near and
abroad. The geology of many islands is also a point of interest. The large veins of quartz on
the Paint Hills islands for example, and interesting structural features such as the folds and
faults that can be found on most of the rock islands provide interpretive opportunities.
Visitor experience can be enhanced not only by the presence of knowledgeable local guides,
but by the opportunity to interact with Cree and Inuit people in their seasonal camps. There
are Cree summer fish camps, and spring and fall goose hunting camps on the coast and on
some of the islands closer to the coast. An Inuit family has its hunting and fishing camp at
Cape Hope Islands, where picturesque inukshuk are found on promontories in the vicinity of
the small historical Inuit community that occupied this site between the 1930s and 1950s. At
nearby Old Factory, and at Poplar River, historical archaeological sites dating to the
beginning of the fur trade (Denton 2001) have been identified, could be toured, and can be
developed. Cultural tourism and eco-tourism are interests that can be combined in this
environment, with the chance to witness subsistence techniques and sample local foods, such
as smoked whitefish and sea-run book trout.
Every island we visited abounds with educational opportunities for visitors. How these may
best be managed for the benefit of all who live in and visit this space will require intensive
planning and consultation. In particular, this planning and consultation will involve the active
participation and leadership of coastal tallymen and other hunters, community councils,
economic development and environmental offices, outfitting and tourism initiatives, and
police, emergency services, and ranger organizations. Regional Cree governance entities with
corresponding mandates and responsibilities will equally be engaged. At the coastal interface
of the Tawich area, coordination with the relevant Quebec government departments will
broaden and enrich the options for visitors.
SOME MANAGEMENT IMPLICATIONS
The Cree tenure system has developed, in part to effect orderly human use and management
of coastal and marine resources. Management of these resources involves, among other
measures, rotational use of resource areas to limit human disturbance, and the function, on a
shifting basis, of certain areas as sanctuaries for shorter and longer periods. Such measures
which are customary among Cree (and, in the vicinity of Cape Hope Islands, Inuit) hunters are
integral to socio-ecological sustainability, and could suffer with increased human visitation in
the Tawich environment. For this reason, it is not only culturally but environmentally
important that indigenous environmental knowledge and tenure arrangements retain high
authority in regard to the regulation of human activity in the Tawich area.
This reasoning is fundamental to the management objectives outlined in our Tawich (Marine)
Conservation Area, Eastern James Bay proposal (Mulrennan et al. 2009: 45). In our
40
continuing conversations with Wemindji people and with regional Cree representatives, the
importance of these management objectives has been reiterated. There is consensus about the
necessity for qualified Cree guides to accompany southern visitors, and a determination that
hunting and fishing by non-Crees should be strictly controlled if allowed at all. Decision-
making about where visitors would go and how they would visit the area should go through
the traditional system of land tenure and recognize the authority of the hunting territory
uuchimauch.
41
REFERENCES
Aiken, S.G., M.J. Dallwitz, L.L. Consaul, C.L. McJannet, L.J. Gillespie, R.L. Boles, G.W.
Argus, J.M. Gillett, P.J. Scott, R. Elven, M.C. LeBlanc, A.K. Brysting and H. Solstad
(1999 onwards). Flora of the Canadian Arctic Archipelago: Descriptions, Illustrations,
Identification, and Information Retrieval. Version: 29th April 2003.
http://www.mun.ca/biology/delta/arcticf/‟. Dallwitz (1980)
Baldwin, W. K. W. (1953). Plants from Two Small Island Habitats in James Bay. Ottawa:
Minister of Resources and Development.
Benessaiah, K., Bennett, A., Boyce, S., Crawford, E., Demers, V., Forrest, M., et al. (2003).
Aa-wiichaautuwiihkw: Creating a Culturally Appropriate watershed and Adjacent
Marine Coastal Protected Area in Paakumshumwaau (Old Factory), Wemindji, James
Bay, Quebec. Montreal, QC: McGill University.
Berryman, N., Burt, J., Fortier, J., Lotter, E., Mackay, B., Paquin, C., et al. (2004). Aa-
Wiishaautuwiihkw (Coming Together to Walk Together): Creating a Culturally
Appropriate Protected Area in Paakumshumwaau (Old Factory) James Bay, Quebec:
Year 2. Montreal, QC.: McGill University.
Blondeau, M. (2008). La flore vasculaire de la baie James: Wemindji (Québec) et baie de
Paint Hills (Nunavut).
Blondeau, M., A. Cuerrier, C. Roy and Avataq Cultural Institute. (2004). Atlas Des Plantes
Des Villages Du Nunavik. Quebec: Les éditions multi-monde.
Bussières,V., Scott, K., Dolan, J., Stewart, H., Mulrennan, M.E. and Scott, C. H. (2008).
Wemindji Marine and Island Surveys 2008. Report.
Chu, S. Y., Crystal, V., Lefrançois, S., Maltais, A., Martinson, J., Usborne, A., et al. (2005).
Aa-Wiichaautuwiihkw: Coming Together to Walk Together. Creating a Culturally
Appropriate Watershed and Marine Protected Area in Paakumshumwaau (Old
Factory) James Bay, Quebec: Year 3. Montreal, QC: McGill University.
Denton, David. 2001. A Visit in Time: Ancient Places, Archaeology and Stories from the
Elders of Wemindji. Nemaska, Quebec: Cree Regional Authority.
Dutilly, Artheme, Ernest Lepage, and Maximilian Duman. (1958). Contribution a la flore des
iles et du versant oriental de la baie James. Washington, DC: The Catholic University
of America Press.
Ettenger, Kreg. 2002. Cree Use, Management & Occupancy of the Offshore Region in
Eastern James Bay & Southeastern Hudson Bay: Community Report for Wemindji.
Confidential Report. Nemaska: Grand Council of the Crees of Quebec.
Flora of North America Editorial Committee, eds. (1993+). Flora of North America North of
Mexico. 14+ vols. New York and Oxford. On Line: http://www.efloras.org/index.aspx
42
Hustich, Ilmari. (1950). Notes on the Forests of the East Coast of Hudson Bay and James
Bay. Acta Geographica 11(1):2-83.
James Bay and Northern Quebec Native Harvesting Research Committee (1982) The Wealth
of the Land. Wildlife Harvests by the James Bay Cree, 1972-73 to 1978-79.
Milligan, H., Milligan, M., Stewart, H., & Scott, C. H. (2008). Wemindji Marine Diving
Expedition 2007. Report.
Morantz, Toby (2000) Research Notes from the Hudson’s Bay Company Archives for Trading
Posts in Iyiyuuschii. CD-Rom prepared for the Cree Cultural Coordinators of
Iyiyuuschii from the research notes of Dr. Toby Morantz, McGill University. Cree
Regional Authority.
Morantz, Toby (2002) The White Man's Gonna Getcha: The Colonial Challenge to the Crees in
Quebec. Montreal and Kingston: McGill-Queen's University Press.
Mulrennan, M. E., Bussières, V., & Scott, C. H. (2009). Tawich (Marine) Conservation Area,
Eastern James Bay. The Wemindji-McGill Protected Area Project.
Scott, Colin (1982) Cree Stories from Wemindji: People, Nature and Events in Myth and
'Tidings'. Contract Research Report, Canadian Ethnology Service, National Museum
of Man, Ottawa.
Scott, Colin (1986) "Hunting Territories, Hunting Bosses and Communal Production among
Coastal James Bay Cree". In Toby Morantz and Charles Bishop, eds. Who Owns the
Beaver? Northern Algonquian Land Tenure Reconsidered. Anthropologica N.S. 18
(1-2):163-173.
Scott, Colin (1988) "Property, Practice and Aboriginal Rights among Quebec Cree Hunters".
In James Woodburn, Tim Ingold and David Riches, eds. Hunters and Gatherers --
Property, Power and Ideology. Vol. 2. London: Berg Publishers Ltd. Pp. 35-51.
Scott, Colin (1992) "La rencontre avec les Blancs d'après les récits historiques et mythiques
des Cris de la Baie James." Récits autochtones de l'arrivée des Européens.
Recherches Amérindiennes au Québec 22(2-3):47-62.
Scott, Colin (1996) "Science for the West, Myth for the Rest? The Case of James Bay Cree
Knowledge Construction.” In Laura Nader, ed. Naked Science: Anthropological
Inquiries into Boundaries, Power and Knowledge. London: Routledge. Pp. 69-86.
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Ecological, Social and Economic Effects. PAD Monograph Series. Montréal:
Programme in the Anthropology of Development, McGill University.
Stewart, D.B., M.J. Dunbar, and L.M.J. Bernier. (1993). Marine Natural Areas of Canadian
Significance in the James Bay Marine Region. Ottawa: Canadian Parks Service.
Utmar, Paolo. (1990). Report to the Eastmain Band. Unpublished.
43
APPENDIX 1
All marine, avian and terrestrial fauna (82 species) recorded within
study area in 2007, 2008 & 2009
Category Common name Latin name Confidence 2007 2008 2009
Aquatic intervebrate
Fresh water snail Lymnaeidae sp. Med X
Pelagic invertebrates
Moon Jelly Aurelia aurita Med X X
Brown banded moon Jelly
Aurelia limbata Med X
Skeleton shrimp Caprella septentrionalis
Med-High X X
Lion's mane jellyfish
Cyanea capillata Med X
Scud Gammarus sp. Med-High X X
Horned stalked jellyfish
Lucernaria quadricornis
High X
Comb jelly Mertensia ovum Low X X
Mysid shrimps Mysis sp. High X X
Sea spider Nymphon sp. Med-High X
Sea gooseberry? Pleurobrachia sp. Med. X
Clapper hydroid Sarsia tubulosa Med X
Benthic invertebrates
Nemertidae, amphiporidae
Amphiporus angulatus
Low X
Lug worm Arenicola marina High X X X
Tunicates sp. Ascidians sp. High X X
Common star fish Asterias vulgaris Med-High X X
Silver spotted anemone
Aulactinaria stella Med X X
Iceland Scallop Chlamys islandica Med-High X
Iceland cockle Clinocardium ciliatum Med-high X
Bushy backed sea slug
Dendronotus frondosus
High X
Sponge Haliclona sp. Med-High X X
Common Northern Lacuna
Lacuna vincta Med X
Twelve-scaled worm
Lepidotonus squamatus
Med-High X X
Polar sea star Leptasterias polaris High X
Periwinkle Littorina sp. (saxatilis?)
Med-High X X X
Macoma Macoma balthica High X
Soft shelled clam Mya arenaria Med-High X X X
Blue mussel Mytilus edulis High X X X
Polychaete (errant)
Nereis succinea Low X X
Polychaete (errant)
Polychates sp. X
44
Polychaete (sedentary)
Polychates sp. X
Green sea urchin Stronglocentrotus droebachiensis
High X X X
Tortoise shell limpets
Tectura testudinalis High X X
Mottled red chiton Tonicella marmorea High X
Northern red anemone
Urticina felina Low X
Fish Sandlance sp. Ammodytes sp. Med X X
Cisco Coregonus artedii High X
Lumpfish Cyclopterus lumpus High X X
Greenland cod Gadus Ogac High X
Three-spine stickleback
Gasterosteus aculeatus
Med-High X X
Sculpin sp? Myoxocephalus sp. High X X X
Rock gunnels Pholis gunellus High X Arctic shanny Stichaeus punctatus High X
Category Common name Latin name Confidence 2007 2008 2009
Birds Mallard Anas platyrhynchos high X
American Pipet Anthus rubescens high X
Rudy turnstone Arenaria interpres high X X X
Canada goose Branta canadensis high X X X
Sanderling Calidris alba Med X
Semipalmated sandpiper
Calidris pusilla Med-High X X X
Black Guillemot Cepphus grylle high X X X
Semipalmated plover
Charadrius semipalmatus
high X X
Killdeer Charadrius vociferus high X X
Northern harrier Circus cyaneus high X X
Common loon Gavia immer high X X
Pacific loon Gavia pacifica Med X
Red-throated loon
Gavia stellata high X X
Arctic loon Bald Eagle
Gavia arctica Haliaetus leucocephalus
high high
X
X
Herring gull Larus argentatus high X X X
Great black-backed gull
Larus marinus high X
Surf scoter Melanitta fusca high X X
White-wing scoter Melanitta perspicillata high X X
Whimbrels Numenius phaeopus high X X X
Double crested cormorant
Phalacrocorax auritus high X X
45
Red breasted nuthatch
Sitta canadensis high X
Common eiders Somateria mollissima high X X X
Common tern Sterna hirundo high X
Arctic tern Sterna paradisaea high X X X Lesser yellow
legs Tringa flavipes high X
Greater yellow legs
Tringa melanoleuca high X X X
White-crowned sparrow
Zonotrichia leucophrys
high X
Mammals Moose (tracks) Alces alces americana
high X
Grey wolf Canis lupus occidentalis
High X
Beluga Delphinapterus leucas
high X X X
Bearded Seal Erignathus barbatus Med X
Caribou Rangifer tarandus high X X X
Polar bear Ursus maritimus high X X X
Arctic fox Vulpes lagopus high X
Red fox Vulpes vulpes high X
46
APPENDIX 2
All terrestrial plant species (160) recorded
within study area 2008 & 2009
Achillea millefolium L. Alnus incana (L.) supsp. rugosa (Du Roi) Clausen Alnus viridis (Villars) DC. in Lam. & DC. subsp. crispa
(Dryand. ex Ait.) Turrill ex Ait. Andromeda glaucophylla Link Androsace septentrionalis L. subsp. septentrionalis Anemone multifida Poir. ex Lam. var. multifida. Arctanthemum arcticum (L.) Tzvelev Arctostaphylos rubra (Rehder & Wilson) Fernald Arctostaphylos uva-ursi (L.) Spreng. Argentina egedei (Wormsk.) Rydb. subsp.
groenlandica (Tratt.) A. Löve Artemisia campestris L. ssp. canadensis (Michx.) Atriplex spp. Betula glandulosa Michx. Bistorta vivipara (L.) Delarbre Botrychium lunaria (L.) Sw. Campanula rotundifolia L. Carex aquatilis Wahlenb. var. aquatilis Carex bicolor Bellardi ex All. Carex bigelowii Torrey ex Schwein. subsp. bigelowii Carex garberi Fern. Carex gynocrates Wormsk. ex Drej. Carex nardina Fries Carex spp. Castilleja septrionalis Lindl. Cerastium alpinum L. Cerastium arvense L. ssp. strictum Gaudin Chamerion angustifolium (L.) Holub subsp.
angustifolium Chamerion latifolium (L.) Holub. Chenopodium glaucum L. subsp. salinum (Standl.)
Aellen Cladina spp. (mosses) Cladonia rangiferina Cladonia sp (lichen) Cladonia stellaria Comarum palustre L. Cornus canadensis L. subsp. canadensis Deschampsia flexuosa (L.) Beauv. Diapensia lapponica L. Draba aurea Vahl ex Hornem. Draba incana L. Drosera rotundifolia L.
Dryas integrifolia Vahl subsp. integrifolia Dryopteris carthusiana (Vill.) H.P. Fuchs Elymus trachycaulus (Link) Gould ex Shinners Empetrum nigrum L. subsp. hermaphroditum (Lange
ex Hagerup) Böcher Epilobium spp Eriophorum angustifolium Honck. ssp. angustifolium Eriophorum russeolum Fr. subsp. russeolum Euphrasia frigida Pugsley Festuca rubra L. Fragaria virginiana Duchesne subsp. glauca (S.
Wats.) Staudt Fucus spp Gaultheria hispidula (L.) Muhl. ex Bigelow Gentianella amarella (L.) Börner subsp. acuta
(Michx.) J. Gillett Gentianopsis nesophila (Holm) Iltis Geocaulon lividum (Richards.) Fern. Glaux maritima L. Green mosses Heracleum maximum Bartr. Hippuris tetraphylla L. f. Hippuris vulgaris L. Honckenya peploides (L.) Ehrh. subsp. diffusa
(Hornem.) Hultén Hordeum jubatum L. subsp. jubatum Huperzia selago (L.) Bernh. ex Mart. & Schrank s.l. Huperzia selago (L.) Bernh. ex Mart. & Schrank s.l. Iris versicolor L. Juncus albescens (Lange) Fern. Juncus balticus Willd. Juncus bufonius L. Juniperus communis L. var. depressa Pursh Kalmia procumbens (L.) Gift, Kron & P.F. Stevens ex
Galasso, Banfi & F. Conti Larix laricina (Du Roi) K. Koch Lathyrus japonicus Willd. Lathyrus palustris L. Leymus mollis (Trin.) Pilger subsp. mollis Ligusticum scoticum L. subsp. scoticum Limosella aquatica L. Linnaea borealis L. subsp. longiflora (Torr.) Hultén Listera cordata (L.) R. Br. var. cordata Lycoperdon spp (puffball mushrooms) Lycopodium annotinum L.
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Mentha arvensis L. s.l. Menyanthes trifoliata L. subsp. verna (Raf.) Gervais &
Parent Minuartia groenlandica (Retz.) Ostenf. Myrica gale L. Orthilia secunda (L.) House Packera pauciflora (Pursh) Parnassia palustris L. subsp. neogaea (Fern.) Hultén Pedicularis groenlandica Retz. Peltegera spp (lichen) Petasites frigidus (L.) Fries var. sagittatus (Banks ex
Pursh) Cherniawsky Phleum alpinum L. Picea glauca (Moench) Voss Picea mariana (P. Mill.) B.S.P. Pinguicula vulgaris L. subsp. vulgaris Plantago maritima L. subsp. juncoides (Lam.) Hultén Platanthera obtusata (Banks ex Pursh) Lindl. subsp.
obtusa Plathanthera aquilonis Sheviak Pleurozium schreberi Poa eminens J.Presl Polygonum fowleri B.L. Robins. subsp. fowleri Populus balsamifera L. ssp. balsamifera Populus tremuloides Michx. Potentilla bimundorum Soják
Potentilla nivea L. Prenanthes racemosa Michx. var. racemosa Primula egaliksensis Wormsk. ex Hornem. Primula stricta Hornemann Pyrola asarifolia Michx. ssp. asarifolia [Pyrola
rotundifolia] Pyrola grandiflora Radius Ranunculus cymbalaria Pursh Rhinanthus minor L. subsp. minor Rhododendron groenlandicum (Oeder) K.A. Kron &
W.S. Judd Rhododendron lapponicum (L.) Wahlenb. var.
lapponicum Rhyncospora alba (L.) Vahl. Ribes glandulosum Grauer Ribes hirtellum Michx. Ribes spp Rubus arcticus L. subsp. acaulis (Michx.) Focke Rubus chamaemorus L. Rubus idaeus L. subsp. strigosus (Michx.) Focke Rumex occidentalis S. Watts Rumex subarcticus Lepage Sagina nodosa (L.) Fenzl subsp. borealis Crow Salix arctophila Cockerell ex Heller Salix candida Flügge ex Willd.