Population variation affects interactions between two California salt marsh plant species more than precipitation.
Akana E. Noto,Jonathan B. Shurin +1 more
TL;DR: It is suggested that phenotypic variation among populations can affect interaction strength more than environment, despite a threefold difference in precipitation, and Geographic intraspecific variation may play an important role in determining the strength of interactions in communities.
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Abstract: Species that occur along broad environmental gradients often vary in phenotypic traits that make them better adapted to local conditions Variation in species interactions across gradients could therefore be due to either phenotypic differences among populations or environmental conditions that shift the balance between competition and facilitation To understand how the environment (precipitation) and variation among populations affect species interactions, we conducted a common garden experiment using two common salt marsh plant species, Salicornia pacifica and Jaumea carnosa, from six salt marshes along the California coast encompassing a large precipitation gradient Plants were grown alone or with an individual of the opposite species from the same site and exposed to one of three precipitation regimes J carnosa was negatively affected in the presence of S pacifica, while S pacifica was facilitated by J carnosa The strength of these interactions varied by site of origin but not by precipitation treatment These results suggest that phenotypic variation among populations can affect interaction strength more than environment, despite a threefold difference in precipitation Geographic intraspecific variation may therefore play an important role in determining the strength of interactions in communities
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Citations
Does salt stress affect the interspecific interaction between regionally dominant Suaeda salsa and Scirpus planiculumis
TL;DR: The results suggest that competition and facilitation processes not only depend on the combinations of different life-history characteristics of species but also on the planting density ratio, which may contribute to the understanding of the responses of estuarine wetland plant-plant interactions to human modifications ofEstuarine salinity.
Population and species neighbor identity impact trait–trait relationships and plant performance
Alicia J. Foxx,Florian Fort,Andrea T. Kramer +2 more
TL;DR: This study investigates the impact of population and species identity on plant performance and trait outcomes in mixtures, finding that neighbor trait differences predict growth outcomes, with varying results depending on population identity and measured traits.
Interactions among salt marsh plants vary geographically but not latitudinally along the California coast.
Akana E. Noto,Jonathan B. Shurin +1 more
TL;DR: It is found that S. pacifica consistently competed with the subordinate species and that the strength of competition varied among sites, suggesting that variation in interactions among salt marsh plants may be influenced by local‐scale site differences such as nutrients more than broad latitudinal gradients.
Mean conditions predict salt marsh plant community diversity and stability better than environmental variability
Akana E. Noto,Jonathan B. Shurin +1 more
TL;DR: The authors used an information-theoretic approach and linear models to determine the associations among long-term mean conditions, interannual environmental variability, and plant community stability and diversity.
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