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Towards a more biologically realistic use of Droop's equations to model growth under multiple nutrient limitation
Author(s) -
Cherif Mehdi,
Loreau Michel
Publication year - 2010
Publication title -
oikos
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.672
H-Index - 179
eISSN - 1600-0706
pISSN - 0030-1299
DOI - 10.1111/j.1600-0706.2010.18397.x
Subject(s) - voltage droop , trophic level , nutrient , variety (cybernetics) , ecosystem , ecology , biology , computer science , physics , quantum mechanics , voltage , voltage divider , artificial intelligence
Droop's model was originally designed to describe the growth of unicellular phytoplankton species in chemostats but it is now commonly used for a variety of organisms in models of trophic interactions, ecosystem functioning, and evolution. Despite its ubiquitous use, Droop's model is still limited by several simplifying assumptions. For example, the assumption of equal theoretical maximum growth rates for all nutrients is commonly used to describe growth limited by multiple nutrients. This assumption, however, is both biologically unrealistic and potentially misleading. We propose the alternative hypothesis of equal realized maximum growth rates for all nutrients. We support our hypothesis with empirical and theoretical arguments and discuss how it may improve our understanding of the biology of growth, while avoiding some of the pitfalls of the previous assumption.