AN INDEX MODEL FOR PREDICTING SEED-GERMINATION AND EMERGENCE RATES
Authored by DM ALM, EW STOLLER, LM WAX
Date Published: 1993
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Abstract
We present a germination and emergence model that can be used as a
sub-model in an individual-based model of population dynamics. Seed
germination and seedling elongation rates were measured in petri dishes
in the laboratory for ivyleaf morningglory, velvetleaf, corn, and
soybean seeds, as functions of temperature and water potential. The
analysis yielded a set of indices: the germination temperature index
(GTI), the germination water index (GWI), the emergence temperature
index (ETI), and the emergence water index (EWI). The seed populations
were divided into 100 discrete cohorts, with each cohort (i), having its
own germination rate (GR) as the product of a reference rate and the
germination indices, or GR(i) = GR(i)REF x GTI x GWI. After germination, the emergence mte (ER) was the product of a reference rate and emergence
indices, or ER(i) = ER(REF) x ETI x EWI. The model was tested against
the timing of emergence in the field for seeds planted 1, 2, 4, and 8 cm
deep in natural or rain-excluded environments. The predictions were more
accurate for all depths combined than for any particular depth.
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