Evolution of plant–pollinator mutualisms in response to climate change

We developed a model that explicitly considers both the evolution and the population dynamics of a plant–pollinator mutualism under climate change.

Evolution of plant-pollinator mutualisms in response to climate change

Phenologies can evolve, but the role of evolution in the response of mutualisms to climate change is poorly understood. We developed a model that explicitly ...

Request Username ... Thanks for sharing!

Evolution of plant–pollinator mutualisms in response to climate change

Introduction. Climate change is altering the phenologies of species worldwide (Parmesan and Yohe 2003; Root et al. 2003;. Bertin 2008).

How does climate warming affect plant-pollinator interactions?

Rapid evolution in response to climate change has been documented for both insects and flowering plants (Davis et al. 2005; Franks et al. 2007; Skelly et al ...

Evolution of plant-pollinator mutualisms in response to climate change

Climate change has the potential to desynchronize the phenologies of interdependent species, with potentially catastrophic effects on mutualist popula.

Evolution of plant-pollinator mutualisms in response to climate change

Climate change has the potential to desynchronize the phenologies of interdependent species, with potentially catastrophic effects on mutualist populations.

Global warming and plant–pollinator mismatches - Portland Press

The mutualism between plants and their pollinators provides globally important ecosystem services, but it is likely to be disrupted by global warming.

Climate warming changes synchrony of plants and pollinators

Our study suggests that climate change affects the phenologies of both plants and insects and that it also influences the synchrony of plant–pollinator ...

Studying Plant–Pollinator Interactions in a Changing Climate - BioOne

This review focuses on assessments of plants' and pollinators' altered phenology in response to environmental changes, as phenology is one of ...

From the ground up: Building predictions for how climate change will ...

Weakening or disruption of soil microbe-plant mutualisms may shift flowering phenology, reduce floral abundances, and decrease plant nutrient content, lowering ...

Evolution of plant–pollinator mutualisms in response to climate change

Phenologies can evolve, but the role of evolution in the response of mutualisms to climate change is poorly understood. We developed a model that explicitly ...

Ecology and evolution of plant–pollinator interactions | Oxford

In this Viewpoint paper we highlight the application of ecological and evolutionary approaches to two themes in pollination biology.

Climate change, range shifts, and the disruption of a pollinator-plant ...

Climate change has significant impacts on the distribution of species and alters ecological processes that result from species interactions.

plant-pollinator mismatches

Gilman RT, Fabina NS, Abbott KC, Rafferty NE (2012). Evolution of plant–pollinator mutualisms in response to climate change. Evolutionary ...

Global warming and plant–pollinator mismatches - ScienceDirect.com

The mutualism between plants and their pollinators provides globally important ecosystem services, but it is likely to be disrupted by global warming that ...

Plant–Pollinator Interactions Under Climate Change - BioOne

Yet, experimental manipulations of phenology and distribution can provide ecological and evolutionary insight into the current and future ...

Investigating the effects of climate change on pollination services

The effects of simultaneous warming will be quantified for (i) the timing of plant and pollinator life history events, such as the start, peak, and end of ...

Your search: "author:Abbott, Karen" - eScholarship

We developed a model that explicitly considers both the evolution and the population dynamics of a plant-pollinator mutualism under climate change. How the ...

Global warming and the disruption of plant-pollinator interactions.

This work used a highly resolved empirical network of interactions between 1420 pollinator and 429 plant species to simulate consequences of the ...