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Transcript of Overview Sistem SESAME - puspijak.orgpuspijak.org/uploads/sesame.pdf · 2. DAYA SIMPAN AIR GAMBUT...
FORUM GROUP DISCUSSIONAPLIKASI SESAME DALAM PENGEMBANGAN SISTEM PERINGATAN DINI
KEBAKARAN HUTAN DAN LAHAN
Overview Sistem SESAME :Teknologi dan
Sistem Monitoring Gambutby :
DR.IR. BAMBANG SETIADI, IPUChairman of National Research Council
Sentul, Bogor, 16 Maret 2016
Overview Sistem SESAME :Teknologi dan
Sistem Monitoring Gambut
FORUM GROUP DISCUSSIONAPLIKASI SESAME DALAM PENGEMBANGAN SISTEM PERINGATAN DINI
KEBAKARAN HUTAN DAN LAHAN
Overview Sistem SESAME :Teknologi dan
Sistem Monitoring Gambut
DR.IR. BAMBANG SETIADI, IPUChairman of National Research Council
Sentul, Bogor, 16 Maret 2016
Overview Sistem SESAME :Teknologi dan
Sistem Monitoring Gambut
BENGAWAN SOLO MEMBERAMO
BATANGHARI
548 km 670 km
800 km.
SUNGAI KAPUAS
800 km.
1.178 km
MEMBERAMO MUSI
BARITO
750 km
BARITO
SUNGAI MAHAKAM
900 km
920 km
2. DAYA SIMPAN AIR GAMBUT
Kadar bahan organik = 70% bPorositas = 85% vKerapatan jenis = 0,1 -0,2Kapasitas memegang air = 850% b – 3000%
Gambut fibrik Gambut Saprik
1. Kerapatan jenis gambut 0,1 0,2
2. Kapasitas memegangair maksimum 900% 400%
3. Kapasitas penambatanAir (mm/tebal 1m) 900 800 m
4. Rata-rata menambat air (mm) 850
5. Lahan gambut PLG24% dari 1 jt Ha (Ha) 240.000
6. Kedalaman rata-rata (m) 3
7. Jumlah air yang dapatditambat :(m3) 61,200.000.000
8. Jumlah curah hujan (mm) 3.200
9. Jumlah aliran permukaan (mm/th) 2.008
10. Jumlah aliran permukaan ygterbentuk di 1 jt ha (m3) 20. 000.000.000
11. Bagian air yang ditambatgambut (%) 31%
12. Jumlah waduk di Indonesia 5313. Kemampuan menyimpan
waduk (m3) 91.700.000.00014. Kemampuan gambut menambat
air di lahan 1 jt Ha dibandingkapasitas waduk di Indonesia 66,7%
2. DAYA SIMPAN AIR GAMBUT
Kadar bahan organik = 70% bPorositas = 85% vKerapatan jenis = 0,1 -0,2Kapasitas memegang air = 850% b – 3000%
Gambut fibrik Gambut Saprik
1. Kerapatan jenis gambut 0,1 0,2
2. Kapasitas memegangair maksimum 900% 400%
3. Kapasitas penambatanAir (mm/tebal 1m) 900 800 m
4. Rata-rata menambat air (mm) 850
5. Lahan gambut PLG24% dari 1 jt Ha (Ha) 240.000
6. Kedalaman rata-rata (m) 3
7. Jumlah air yang dapatditambat :(m3) 61,200.000.000
8. Jumlah curah hujan (mm) 3.200
9. Jumlah aliran permukaan (mm/th) 2.008
10. Jumlah aliran permukaan ygterbentuk di 1 jt ha (m3) 20. 000.000.000
11. Bagian air yang ditambatgambut (%) 31%
12. Jumlah waduk di Indonesia 5313. Kemampuan menyimpan
waduk (m3) 91.700.000.00014. Kemampuan gambut menambat
air di lahan 1 jt Ha dibandingkapasitas waduk di Indonesia 66,7%
2. DAYA SIMPAN AIR GAMBUT
Kadar bahan organik = 70% bPorositas = 85% vKerapatan jenis = 0,1 -0,2Kapasitas memegang air = 850% b – 3000%
Gambut fibrik Gambut Saprik
1. Kerapatan jenis gambut 0,1 0,2
2. Kapasitas memegangair maksimum 900% 400%
3. Kapasitas penambatanAir (mm/tebal 1m) 900 800 m
4. Rata-rata menambat air (mm) 850
5. Lahan gambut PLG24% dari 1 jt Ha (Ha) 240.000
6. Kedalaman rata-rata (m) 3
7. Jumlah air yang dapatditambat :(m3) 61,200.000.000
8. Jumlah curah hujan (mm) 3.200
9. Jumlah aliran permukaan (mm/th) 2.008
10. Jumlah aliran permukaan ygterbentuk di 1 jt ha (m3) 20. 000.000.000
11. Bagian air yang ditambatgambut (%) 31%
12. Jumlah waduk di Indonesia 5313. Kemampuan menyimpan
waduk (m3) 91.700.000.00014. Kemampuan gambut menambat
air di lahan 1 jt Ha dibandingkapasitas waduk di Indonesia 66,7%
Sumber : Prof.Tejoyuwono2. DAYA SIMPAN AIR GAMBUT
Kadar bahan organik = 70% bPorositas = 85% vKerapatan jenis = 0,1 -0,2Kapasitas memegang air = 850% b – 3000%
Gambut fibrik Gambut Saprik
1. Kerapatan jenis gambut 0,1 0,2
2. Kapasitas memegangair maksimum 900% 400%
3. Kapasitas penambatanAir (mm/tebal 1m) 900 800 m
4. Rata-rata menambat air (mm) 850
5. Lahan gambut PLG24% dari 1 jt Ha (Ha) 240.000
6. Kedalaman rata-rata (m) 3
7. Jumlah air yang dapatditambat :(m3) 61,200.000.000
8. Jumlah curah hujan (mm) 3.200
9. Jumlah aliran permukaan (mm/th) 2.008
10. Jumlah aliran permukaan ygterbentuk di 1 jt ha (m3) 20. 000.000.000
11. Bagian air yang ditambatgambut (%) 31%
12. Jumlah waduk di Indonesia 5313. Kemampuan menyimpan
waduk (m3) 91.700.000.00014. Kemampuan gambut menambat
air di lahan 1 jt Ha dibandingkapasitas waduk di Indonesia 66,7%
JUM
LAH
CU
RAH
HU
JAN
MU
KA AIR TANAH G
AMBU
TJUM
LAH
CU
RAH
HU
JAN
MU
KA AIR TANAH G
AMBU
T
……..SELAMA 11 TAHUN……..INFORMASI SANGATSTRATEGIS !!!!
MU
KA AIR TANAH G
AMBU
TM
UKA AIR TAN
AH GAM
BUT
……..SELAMA 11 TAHUN……..
SESAMEAND
FUTURE RESEARCH STRATEGY
SESAMEAND
FUTURE RESEARCH STRATEGY
SESAMEAND
FUTURE RESEARCH STRATEGY
SESAMEAND
FUTURE RESEARCH STRATEGY
TIGA AREA PENGUJIANHUTAN ASELI (UF) GAMBUT DIKERINGKAN(DF)
34
UF Swamp forest with little drainage
DF Drained swamp forest
DB Drained burned swamp forest
Since Jul. 2004 Since Apr. 2004
34
Hirano, Sega, Kusin, Limin, Takahashi and OsakiEffects of disturbances on the carbon balance of tropical peat swamp forests,Global Change Biology (2012) 18:3410-3422
TIGA AREA PENGUJIANGAMBUT DIKERINGKAN(DF)
GAMBUT DIKERINGKANSETELAH TERBAKAR (DB)
34
Swamp forest with little drainage 1.74 gC/m2/y
3.28 gC/m2/y
Drained burned swamp forest 4.99 gC/m2/y
Since Nov. 2001Since Apr. 2004
34
(photo by Prof. Hirano)
Hirano, Sega, Kusin, Limin, Takahashi and OsakiEffects of disturbances on the carbon balance of tropical peat swamp forests,Global Change Biology (2012) 18:3410-3422
NEE TAHUNAN dan RATA2 MUKA AIR TANAH
-0.7 -0.6 -0.5 -0.4 -0.3 -0.2 -0.1 0.0-100
0100200300400500600700
GWL (m)
NE
E (g
C m
-2 y
-1)
UFDFDB
NEE: Net Ecosystem CO2 Exchange
35
-0.7 -0.6 -0.5 -0.4 -0.3 -0.2 -0.1 0.0-100
0100200300400500600700
GWL (m)
NE
E (g
C m
-2 y
-1)
UFDFDB
35
NEE TAHUNAN dan RATA2 MUKA AIR TANAH
●UF NEE=-2376GWL-151●DF NEE=-1609GWL-510●DB NEE=-789GWL+378
NEE: Net Ecosystem CO2 Exchange
35
Hirano et al.(2012), GCB
●UF NEE=-2376GWL-151●DF NEE=-1609GWL-510●DB NEE=-789GWL+378
35
EFFICIENT MANAGEMENTOF THE MULTI-PURPOSE
DAM AND DATACOLLECTION FOR THE
CLIMATE CHANGE WITHREAL-TIME TELEMETRY
SYSTEM (SESAMESYSTEM)
EFFICIENT MANAGEMENTOF THE MULTI-PURPOSE
DAM AND DATACOLLECTION FOR THE
CLIMATE CHANGE WITHREAL-TIME TELEMETRY
SYSTEM (SESAMESYSTEM)
EFFICIENT MANAGEMENTOF THE MULTI-PURPOSE
DAM AND DATACOLLECTION FOR THE
CLIMATE CHANGE WITHREAL-TIME TELEMETRY
SYSTEM (SESAMESYSTEM)
JATILUHUR DAMEFFICIENT MANAGEMENTOF THE MULTI-PURPOSE
DAM AND DATACOLLECTION FOR THE
CLIMATE CHANGE WITHREAL-TIME TELEMETRY
SYSTEM (SESAMESYSTEM)
KATULAMPA DAM
SESAME 2NAME(ID) SITE OWNER
Taka 1 Taruna CampTaka 4 Kapuas Oil PalmTaka 5 Sebangau CampTaka 6 Tumbang Miri RiverTaka 7 Pontianak Oil PalmTaka 8 Kahayan RiverTaka 9 Banjarbaru Soil
Jember SoilTaka 9 Banjarbaru Soil
Taka 10 Jember SoilSat 01 PLW 01Sat 02 Jatiluhur damSat 03 Sebangau RiverSat 04 PLW 02Sat 05 PLW 03Sat 06 KTG 03Base 1 Taruna ReforestBase 2 Plot-1C/Sebangau ForestBase 3 Plot-1B/Sebangau ForestBase 4 Kalampangan Forest
OWNERUNPARUNPARKyoto
UNPARUNPARUNPARUNPARMidori
ICCC: Indonesia ClimateChange Center,UNPAR: University ofPalangka Raya,ISARI: IndonesianSwampland AgriculturalInstitute,ICCRI: Indonesian Coffee& Cocoa ResearchInstitute,BNT: PT Bayu Nusa TirtaHU: Hokkaido Univ.,YGU: YamaguchiUniversity, Kyoto: KyotoUniversity,Midori: Midori EngineeringCo LTD,
UNPARMidoriICCCHUHU
ICCCICCCICCCHUHUHUHU
ICCC: Indonesia ClimateChange Center,UNPAR: University ofPalangka Raya,ISARI: IndonesianSwampland AgriculturalInstitute,ICCRI: Indonesian Coffee& Cocoa ResearchInstitute,BNT: PT Bayu Nusa TirtaHU: Hokkaido Univ.,YGU: YamaguchiUniversity, Kyoto: KyotoUniversity,Midori: Midori EngineeringCo LTD,
DI LAHAN GAMBUT :
1. KEBASAHAN DAN KEKERINGANYANG MENENTUKAN TINGKATANCAMAN KEBAKARAN GAMBUT
2. DINAMIKA KARBON- CADANGAN KARBON- EMISI KARBON
3. PROYEKSI PARAMETER IKLIM
DI SUNGAI DAN WADUK:
1. LUAPAN AIR SUNGAI
2. VOLUME AIR WADUK
3. ANCAMAN BANJIR
DATA MANAGEMENT AND COORDINATION
1. NATIONAL DISASTER MANAGEMENT AGENCY2. NATIONAL METEOROLOGICAL
GEOPHYSIC AGENCY3. WEATHER MODIFICATION
TECHNICAL UNIT – ICTC – BPPT4. NATIONAL PEAT RESTORATION AGENCY
5. KEMENHUTLH
GEOSTECH
BPP TEKNOLOGI
1.UNIVERSITY OF PALANGKARAYA2.UNIVERSITY OF TANJUNG PURA
3.UNIVERSITY OF JAMBI4.UNIVERSITY OF RIAU
DATA MANAGEMENT AND COORDINATION
1. NATIONAL DISASTER MANAGEMENT AGENCY2. NATIONAL METEOROLOGICAL
GEOPHYSIC AGENCY3. WEATHER MODIFICATION
TECHNICAL UNIT – ICTC – BPPT4. NATIONAL PEAT RESTORATION AGENCY
5. KEMENHUTLH
GEOSTECH
BPP TEKNOLOGI
5.UNIVERSITY OFGADJAH MADA
6. JAKARTA DIEARCHSASTERMANAGEMENT AGENCY
7. LOCAL RESEARCH COUNCIL
FRAME WORK ;TO PROMOTE SESAME TECHNOLOGY
FOR MEASUREMENT OF CARBON EMISSIONIN TROPICAL PEATLAND
FRAME WORK ;TO PROMOTE SESAME TECHNOLOGY
FOR MEASUREMENT OF CARBON EMISSIONIN TROPICAL PEATLAND
SISTEM PENCEGAHAN KEBAKARAN
SESAME GWL predictingmodel
3 days ahead
MEMBANTU OPERASIHUJAN BUATAN
red; observationblue; prediction
SISTEM PENCEGAHAN KEBAKARAN
GWL predictingmodel
GWL n days ahead
7 days ahead
still in progressred; observationblue; prediction
PRIORITAS REHABILITASI GAMBUTTROPIKA
1.KUBAH DAN AIR DI LAHAN GAMBUT
2.PENGELOLAAN PERMUKAAN AIR GAMBUT/REWETTING DAN PERIKANAN
3.PENGELOLAAN KARBON (PENYERAPAN DANPENGENDALIAN KEBAKARAN)
4.PENGENDALIAN SUNGAI, TABAT, PENGGUNAANBAHAN LOKAL.
5.PENERAPAN PRINSIP PENGAIRAN GRAVITASI KELUAPAN PASANG SURUT
1.KUBAH DAN AIR DI LAHAN GAMBUT
2.PENGELOLAAN PERMUKAAN AIR GAMBUT/REWETTING DAN PERIKANAN
3.PENGELOLAAN KARBON (PENYERAPAN DANPENGENDALIAN KEBAKARAN)
4.PENGENDALIAN SUNGAI, TABAT, PENGGUNAANBAHAN LOKAL.
5.PENERAPAN PRINSIP PENGAIRAN GRAVITASI KELUAPAN PASANG SURUT
PRIORITAS REHABILITASI GAMBUTTROPIKA
1.KUBAH DAN AIR DI LAHAN GAMBUT
2.PENGELOLAAN PERMUKAAN AIR GAMBUT/REWETTING DAN PERIKANAN
3.PENGELOLAAN KARBON (PENYERAPAN DANPENGENDALIAN KEBAKARAN)
4.PENGENDALIAN SUNGAI, TABAT, PENGGUNAANBAHAN LOKAL.
5.PENERAPAN PRINSIP PENGAIRAN GRAVITASI KELUAPAN PASANG SURUT
1.KUBAH DAN AIR DI LAHAN GAMBUT
2.PENGELOLAAN PERMUKAAN AIR GAMBUT/REWETTING DAN PERIKANAN
3.PENGELOLAAN KARBON (PENYERAPAN DANPENGENDALIAN KEBAKARAN)
4.PENGENDALIAN SUNGAI, TABAT, PENGGUNAANBAHAN LOKAL.
5.PENERAPAN PRINSIP PENGAIRAN GRAVITASI KELUAPAN PASANG SURUT
0
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Strong
winds
Thunde
rstorm
or ligh
tning
Flash flo
od
Sands
torm
Heat w
ave
Dense
fog
Drought
Desert
locu
st sw
arm
Earthq
uake
s
Aviatio
n haz
ards
Smoke, D
ust o
r Haze
Hailsto
rm
Marine
haza
rds
Forest o
r wild
land
fire
Waterbo
rne haz
ards
River fl
ooding
Cold w
ave
Heavy
snow
Tsuna
mi
Coasta
l flood
ing
Avalan
che
Volcan
ic ev
ents
Storm su
rge
Airborn
e haza
rdous s
ubstan
ces
Land
slide o
r muds
lide
Tropical
cyclo
ne
Num
ber o
f Cou
ntrie
s Af
fect
ed b
y Ha
zard
Number of responding countries who identifiedthemselves as being affected by specific hazards
0
1
2
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4
5
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14
Strong
winds
Thunde
rstorm
or ligh
tning
Flash flo
od
Sands
torm
Heat w
ave
Dense
fog
Drought
Desert
locu
st sw
arm
Earthq
uake
s
Aviatio
n haz
ards
Smoke, D
ust o
r Haze
Hailsto
rm
Marine
haza
rds
Forest o
r wild
land
fire
Waterbo
rne haz
ards
River fl
ooding
Cold w
ave
Heavy
snow
Tsuna
mi
Coasta
l flood
ing
Avalan
che
Volcan
ic ev
ents
Storm su
rge
Airborn
e haza
rdous s
ubstan
ces
Land
slide o
r muds
lide
Tropical
cyclo
ne
Num
ber o
f Cou
ntrie
s Af
fect
ed b
y Ha
zard
0
1
2
3
4
5
6
7
8
9
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11
12
13
14
Strong
winds
Thunde
rstorm
or ligh
tning
Flash flo
od
Sands
torm
Heat w
ave
Dense
fog
Drought
Desert
locu
st sw
arm
Earthq
uake
s
Aviatio
n haz
ards
Smoke, D
ust o
r Haze
Hailsto
rm
Marine
haza
rds
Forest o
r wild
land
fire
Waterbo
rne haz
ards
River fl
ooding
Cold w
ave
Heavy
snow
Tsuna
mi
Coasta
l flood
ing
Avalan
che
Volcan
ic ev
ents
Storm su
rge
Airborn
e haza
rdous s
ubstan
ces
Land
slide o
r muds
lide
Tropical
cyclo
ne
Num
ber o
f Cou
ntrie
s Af
fect
ed b
y Ha
zard
Top 10hydrometeorologocialhazards:- strong winds
sand storms,- thunderstorm or
lightning,- heat wave- flash floods- dens fog- drought
Number of responding countries who identifiedthemselves as being affected by specific hazards
0
1
2
3
4
5
6
7
8
9
10
11
12
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14
Strong
winds
Thunde
rstorm
or ligh
tning
Flash flo
od
Sands
torm
Heat w
ave
Dense
fog
Drought
Desert
locu
st sw
arm
Earthq
uake
s
Aviatio
n haz
ards
Smoke, D
ust o
r Haze
Hailsto
rm
Marine
haza
rds
Forest o
r wild
land
fire
Waterbo
rne haz
ards
River fl
ooding
Cold w
ave
Heavy
snow
Tsuna
mi
Coasta
l flood
ing
Avalan
che
Volcan
ic ev
ents
Storm su
rge
Airborn
e haza
rdous s
ubstan
ces
Land
slide o
r muds
lide
Tropical
cyclo
ne
Num
ber o
f Cou
ntrie
s Af
fect
ed b
y Ha
zard
Top 10hydrometeorologocialhazards:- strong winds
sand storms,- thunderstorm or
lightning,- heat wave- flash floods- dens fog- drought
FIRE CONTROL ANDPREVENTION
RESEARCH BASE
RE-EDUCATION
REDUCING EMISSION
REVEGETATION
RECHARGE
TARGETAREA
REWETTINGTROPICAL PEAT IS :- SUSTAINABLE STRATEGY- WITHOUT UTILITATION
OF PEAT OR PEAT FOREST
Jack Rieley, Hidenori Takahashi,Bambang Setiadi (2015)Jack Rieley, Hidenori Takahashi,Bambang Setiadi (2015)
FIRE CONTROL ANDPREVENTION
RESEARCH BASE
RE-EDUCATION
REDUCING EMISSION
REVEGETATION
RECHARGE
TARGETAREA
• LOCAL COMMUNITY• LOCAL AND NATIONAL GOVERNMENT OFFICER
SERIES DATA
SUPPORT BY LOCAL COMMUNITY
DOME: WATER CATCHMENTFLAT : POND AND DAM
FOREST AND NON FOREST TREEECONOMIC NON ECONOMIC PLANT
REAL TIME DATA SESAME
[email protected] 0816 188 [email protected] 0816 188 [email protected] 0816 188 [email protected] 0816 188 5152