The seed viability equation for analysing seed storage ...Project: Improving the seed viability...
Transcript of The seed viability equation for analysing seed storage ...Project: Improving the seed viability...
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7th ISTA Seminar on Statistics, © M. Kruse, UHOH 350d
7th ISTA Seminar on Statistics, 2005
The seed viability equation for analysing seed storage behaviour
Michael Kruse,K. Ghiasvand Ghiasi,
S. SchmohlUniversity of Hohenheim
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7th ISTA Seminar on Statistics, © M. Kruse, UHOH 350d
Ellis and Roberts, 1981
Seed survival curves of three maize seed lots stored at 40°C and 10% moisture content
E. H. Roberts
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7th ISTA Seminar on Statistics, © M. Kruse, UHOH 350d
Theoretical seed survival according to thenormal distribution
from Ellis and Roberts, 1961
percentage scale
probit scale
normal
abnormal
dead
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7th ISTA Seminar on Statistics, © M. Kruse, UHOH 350d
Probit - transformation
-4 -3 -2 -1 0 1 2 3 4
germination82%
Probit value 0.9
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7th ISTA Seminar on Statistics, © M. Kruse, UHOH 350d
0
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storage period
germ
inat
ion
(%)
-3
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storage period p
germination
[probit]
Ki
1σ
2QHWE TCTC)SFGlog(CK10 −−−=σ
Kf = Ki - 1/σ × p
Transformation of a seed survival curve from thepercent scale to a line on the probit scale.
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7th ISTA Seminar on Statistics, © M. Kruse, UHOH 350d
-4 -3 -2 -1 0 1 2 3 4
-4
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0 2 4 6 8 10
storage time (days)ge
rmin
atio
n (p
robi
t
qpzW
2
⋅=
Weighing coefficient:
Linear Regression bytaking into accountthe varying precisionof the data points as produced by thetransformation
z
Probit Analysis
The weighing coefficientsdepend on the estimates, not on the observations.
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7th ISTA Seminar on Statistics, © M. Kruse, UHOH 350d
p10
1K 2QHWE TCTC)SFGlog(CKi −−−
−=ν
with: v = germination (probit) after storage for p daysKi = initial germination in probitSFG = seed moisture content in %T = temperature in °Cp = storage period in daysKE, CW, CH und CQ = species specific constants
„The improved seed viability equation“
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7th ISTA Seminar on Statistics, © M. Kruse, UHOH 350d
Procedure for determination of viability constants
35°C 45°C 50°C40°C30°C
12%
13%
14%
15%
-0.532
-1.852
-2.431
-2.711
-0.884
-1.337
-2.299-1.844
-1.003
-0.535
-3.132
-2.532
-2.432-1.387 -3.063
-3.720
Tmc
2QHWE TCTC)mclog(CK10
slope1 −−−=Multiple, nonlinear regression:
too harsh
conditions
too soft
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7th ISTA Seminar on Statistics, © M. Kruse, UHOH 350d
Non-linear regression for the seed viability equationby using SAS
proc nlin data= …. noprint outest=estm;parameters Ke =6 to 10 by .2
Cw = 3 to 6 by .1Ch = .03 to .06 by .001Cq = .0002 to .0005 by .00001;
model prkf = Ki-(days*(10**(-Ke + Cw*log10(MC) + Ch*T+Cq*T**2)));der.ke = +days*(10**(-Ke+Cw*log10(MC)+Ch*T+Cq*T**2))*log(10);der.cw = -days*(10**(-Ke+Cw*log10(MC)+Ch*T+Cq*T**2))*log(10)*log10(MC);der.ch = -days*(10**(-Ke+Cw*log10(MC)+Ch*T+Cq*T**2))*log(10)*T;der.cq = -days*(10**(-Ke+Cw*log10(MC)+Ch*T+Cq*T**2))*log(10)*T**2;output out=pred p=tp r=tr;run;
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7th ISTA Seminar on Statistics, © M. Kruse, UHOH 350d
Species KE CW CH CQBarley 9,983 5,896 0,04 0,000428 Wheat 10,1 5,730 0,0563 - Maize 8,579 4,910 0,0329 0,000428 Pea 9,860 5,390 0,0329 0,000478 Garden bean 9,08 5,20 0,0057 0,00079 Rape seed 7,718 4,54 0,0329 0,000478 Soybean 7,748 3,979 0,053 0,000228 Sunflower 6,74 4,160 0,0329 0,000478 Linseed 7,76 4,860 0,0329 0,000478 Sugarbeet 8,943 4,723 0,0329 0,000478 Onion 6,975 3,470 0,04 0,000428 Salad 8,218 4,797 0,0489 0,000365 Tomato 6,5017 3,1807 0,0324 0,000431
Constants for the improved seed viability equation for selected agricultural and vegetable crops
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7th ISTA Seminar on Statistics, © M. Kruse, UHOH 350d
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storage period (weeks)
germ
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10,0%14,0%15,0%16,0%
Applications of the seed viability equation:calculated seed survival curves for lettuce
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7th ISTA Seminar on Statistics, © M. Kruse, UHOH 350d
468
1012141618
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storage temperature [°C]
seed
moi
stur
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nten
t [%
WheatBarleyMaize
Rape seed
Sunflower
Pea
Conditions:initial germination 98%, after one year of storage still 90% germination
Applications of the seed viability equation:Iso – germination curves
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7th ISTA Seminar on Statistics, © M. Kruse, UHOH 350d
456789
1011
-35 -30 -25 -20 -15 -10 -5 0 5 10 15 20 25
Storage temperatur [°C]
moi
stur
e co
nten
t [%
Initial germination 96%, after 110 years of storage still 90% germination
presumable storage conditions
Ultra-dry seed storageThe Vienna Oat Sample of 1877
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7th ISTA Seminar on Statistics, © M. Kruse, UHOH 350d
-2,5
-2
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-1
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Candisol (oil content 37%)
Sunny (48%)
Cadasol (28%)
prob
itun
its
Days at 45°C and 10% mc
Project: Improving the seed viability equation byincluding seed oil content as a factor.
Example indicating the need: Seed survival probit lines of threeseed lots of sunflower varieties differing in seed oil content