Initial Community Convergence on Plant Defense Syndromes Explains Community Responses to Herbivore Exclosures
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https://hdl.handle.net/10037/14204Date
2017-11-15Type
Master thesisMastergradsoppgave
Author
Robinson, JacobAbstract
General trade-offs in species’ energy use are highlighted here by mapping proposed defense syndromes, using trade-offs found between: constitutive phenolic compounds, silica and a high nutrient low defense region found between regional con-specifics.
Differences in species composition between two catchments can be explained by proposed syndrome trade-offs seeking energy use optimums in differing (a)biotic conditions.
Mapping compositional change resulting from herbivore exclosure experiments, as trade-offs in identified “defense” syndromes between con-specifics when a constraint is lifted, yields a dimension beginning to populate a less constrained fitness landscape.
However, at the same time other (a)biotic forces continue to push the system to a resource use optimum. In this system, changes conspire to move catchments in a similar direction.
It is proposed that defining and discovering trait suites occurring from (a)biotic trade-offs, are best modeled by finding trade-offs at other scales; and that modeling them through time produces a viable model of speciation/convergence occurring through a fitness landscape.
Publisher
UiT Norges arktiske universitetUiT The Arctic University of Norway
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Copyright 2017 The Author(s)
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