Mutualisms in a warming world: How increased temperatures affect the outcomes of multi-mutualist interactions.

In nature, plant species simultaneously interact with many different mutualistic partners. These mutualists may influence one another through direct interference or indirectly by competing for shared reward resources or through alteration of plant traits. Together, these mutualists also may combine to affect plant hosts in ways that may not be predictable based on pairwise interactions.

Effects of multiple mutualists on plants and their associated arthropod communities.

Although most studies of mutualisms focus on a single partner at a time, host species often associate with multiple mutualist partners simultaneously. Because of potential interactions between mutualists, only studying a single type of mutualism could lead to a biased perspective of mutualism benefit and how mutualisms may scale-up to affect communities. The legume Chamaecrista fasciculata engages in a resource mutualism with nitrogen-fixing rhizobia and also forms symbiotic interactions with ants by providing nectar in exchange for defense against herbivores.

Quantifying nonadditive selection caused by indirect ecological effects.

In natural biological communities, species interact with many other species. Multiple species interactions can lead to indirect ecological effects that have important fitness consequences and can cause nonadditive patterns of natural selection. Given that indirect ecological effects are common in nature, nonadditive selection may also be quite common.

Mutualistic rhizobia reduce plant diversity and alter community composition.

Mutualistic interactions can be just as important to community dynamics as antagonistic species interactions like competition and predation. Because of their large effects on both abiotic and biotic environmental variables, resource mutualisms, in particular, have the potential to influence plant communities. Moreover, the effects of resource mutualists such as nitrogen-fixing rhizobia on diversity and community composition may be more pronounced in nutrient-limited environments.