Context‐dependent biotic interactions control plant abundance across altitudinal environmental gradients

Lynn, Joshua S.; Kazenel, Melanie R.; Kivlin, Stephanie N.; Rudgers, Jennifer A.

doi:10.1111/ecog.04421

Cited by 24 publications

(21 citation statements)

References 102 publications

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“…Assuming that competition is stronger within communities with more similar species, richness of potential competitors is expected to reduce the relative abundance of a species via resource depletion and density‐dependent regulation (Meszéna et al , Soberón ). However, the strength of biotic interactions can be context‐dependent on the environmental conditions (Zambrano et al , Lynn et al ). For instance, the effects of interspecific competition can be stronger under stressful environments (Hart and Marshall ).…”

Section: Discussionmentioning

confidence: 99%

Interspecific competition constrains local abundance in highly suitable areas

et al. 2020

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Jens-Christian Svenning Accepted 29 June 2020Sites with high environmental suitability for species' occurrence, in terms of abiotic conditions, may hold populations with higher local abundances by increasing reproductive and survival rates and decreasing extinction rate. Interspecific competition, however, may affect this relationship. Here we tested the hypothesis that local abundance of the gray slender opossum Marmosops incanus is affected by the local richness of potential competitors and environmental suitability derived from ecological niche models (ENMs). We also discuss the ability of distinct modelling methods to predict species' abundance. We compiled occurrence records and information about M. incanus' relative abundance from museums and published articles. Environmental suitability was derived from five algorithms using seven environmental predictors. To assess our hypothesis, we chose the best statistical models among generalised linear models and quantile regressions, and then tested whether the effects of richness of competitors on local abundance are stronger under highly suitable conditions. We found that environmental suitability given by presence-only methods are positively related to the maximum abundance of M. incanus. That is, species' local abundance is low when suitability is low but can be either low or high when suitability is high. The richness of competitors, in turn, explains the abundance variation within sites with high environmental suitability. We strongly recommend that the relationship between abundance and suitability must be carefully interpreted when using ENMs to predict species' distribution because biotic interactions can be the main driver of local abundance within highly suitable environments.

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Section: Discussionmentioning

confidence: 99%

Interspecific competition constrains local abundance in highly suitable areas

et al. 2020

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“…Novel biotic interactions (e.g., competitors) in the warmer and/or wetter environments likely increase the extinction probability and abundance declines of cold niche species. Distribution modeling suggests that the negative relationship between competition and abundance for a species can intensify in warmer and wetter areas (Lynn et al, 2019; Mod et al, 2014). This is bolstered by experimental evidence that novel competitors in warmer/low elevation plant communities lower survival probability, growth, and reproduction of focal species more than competitors found in their home communities in the same novel climate (Alexander et al, 2015).…”

Section: Discussionmentioning

confidence: 99%

Macroecological context predicts species' responses to climate warming

Lynn

Klanderud

Telford

et al. 2021

Global Change Biology

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Context‐dependencies in species' responses to the same climate change frustrate attempts to generalize and make predictions based on experimental and observational approaches in biodiversity science. Here, we propose predictability may be enhanced by explicitly incorporating macroecological context into analyses of species' responses to climate manipulations. We combined vascular plant species' responses to an 8‐year, 12‐site turf transplant climate change experiment set in southwestern Norway with climate niche data from the observed 151 species. We used the difference between a species' mean climate across their range and climate conditions at the transplant site (“climate differences”) to predict colonization probability, extinction probability, and change in abundance of a species at a site. In analyses across species that ignore species‐specific patterns, colonization success increased as species' distribution optima were increasingly warmer than the experimental target site. Extinction probability increased as species' distribution optima were increasingly colder than the target site. These patterns were reflected in change in abundance analyses. We found weak responses to increased precipitation in these oceanic climates. Climate differences were better predictors of species' responses to climate manipulations than range size. Interestingly, similar patterns were found when analyses focused on variation in species‐specific responses across sites. These results provide an experimental underpinning to observational studies that report thermophilization of communities and suggest that space‐for‐time substitutions may be valid for predicting species' responses to climate warming, given other conditions are accounted for (e.g., soil nutrients). Finally, we suggest that this method of putting climate change experiments into macroecological context has the potential to generalize and predict species' responses to climate manipulations globally.

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“…Particularmente, se esperaba un mayor peso de las semillas en los sitios donde la especie fuera más abundante (Leishman et al 2000). En este sentido, es posible que otras variables, como parámetros poblacionales (e.g., tasas de fecundidad, probabilidades de supervivencia de las plántulas), estén relacionadas a los patrones de abundancia (Lynn et al 2019). Tampoco es posible descartar que algunas interacciones biológicas, tanto positivas como negativas, como la polinización, dispersión y competencia con otras especies, intervengan sobre los patrones de abundancia (Mangan et al 2010, Lynn et al 2019.…”

Section: Discussionunclassified

“…Los ambientes montañosos presentan una riqueza de especies muy alta en relación con el área que poseen (Rahbek et al 2019), razón por lo cual son áreas muy importantes para la conservación de la biodiversidad (Perrigo et al 2020). En estos ambientes las especies pueden presentar importantes rangos de distribución altitudinal , Bauk et al 2015 variando su abundancia local a lo largo de los gradientes (Siebert 2005, Lynn et al 2019. Entender los factores que regulan la abundancia de las especies a lo largo de gradientes altitudinales es importante tanto desde un punto de vista teórico (Lynn et al 2019), como aplicado, ya que permiten evaluar como el cambio climático podría afectar la distribución y abundancia de las especies en estos ambientes (Illoldi-Rangel et al 2012, Pacifici et al 2015.…”

Section: O N L I N E F I R S Tunclassified

“…El rango altitudinal de una especie se relaciona con el nicho climático de la misma (Vázquez 2005, Polechová & Storch 2008, mientras que la abundancia a lo largo de dicho rango estará moldeada por diferentes factores, como los microambientes o el contexto biológico (Lynn et al 2019). Si bien existen numerosos estudios que han analizado patrones de riqueza de especies en gradientes altitudinales (Guerrero et al 2011, Gong et al 2019, muy pocos se han detenido en analizar patrones de abundancia de especies particulares (Siebert 2005) y los factores que afectan dichos patrones (Lynn et al 2019).…”

Section: O N L I N E F I R S Tunclassified

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Asociaciones entre las características reproductivas y la abundancia en Gymnocalycium quehlianum (Cactaceae) a lo largo de un gradiente altitudinal

2021

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Antecedentes: A pesar de que las especies pueden presentar amplios rangos altitudinales, poco se conoce acerca de cómo varía su abundancia y de las variables asociadas a esta variación. Hipótesis: Existirá una asociación entre la abundancia y características reproductivas, como peso de la semilla, la germinación y el tamaño y forma de las plántulas a lo largo de un gradiente altitudinal. Especies de estudio: Gymnocalycium quehlianum Sitio de estudio y fecha: Sierras Chicas, Provincia de Córdoba, Argentina. 2015-2016. Métodos: se midió la densidad y la estructura poblacional en tres sitios de la distribución de G. quehlianum en un gradiente altitudinal, a 615, 948 y 1,257 m snm. Se pesaron las semillas, se determinó el porcentaje y el tiempo medio de germinación (TMG), y se midió la longitud y diámetro de las plántulas. Resultados: El peso de las semillas fue menor en la población de altitud intermedia, mientras que el porcentaje y el TMG no variaron significativamente entre las altitudes. El tamaño de la plántula fue menor en la altitud intermedia, mientras que la forma de las plántulas de las poblaciones extremas presentó una forma más alargada. Conclusiones: No existe una relación entre la abundancia poblacional a lo largo del gradiente altitudinal y las variables analizadas. Algunas variables no presentaron diferencias a lo largo del gradiente, como el porcentaje de germinación y el tiempo medio de germinación; otras variables como el peso de la semilla y la forma y tamaño de las plántulas lo hicieron de manera contraria a lo esperado.

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Context‐dependent biotic interactions control plant abundance across altitudinal environmental gradients

Cited by 24 publications

References 102 publications

Interspecific competition constrains local abundance in highly suitable areas

Interspecific competition constrains local abundance in highly suitable areas

Macroecological context predicts species' responses to climate warming

Asociaciones entre las características reproductivas y la abundancia en Gymnocalycium quehlianum (Cactaceae) a lo largo de un gradiente altitudinal

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