Document Type

Article

Publication Date

7-26-2019

Publication Title

Ecological Monograph

First page number:

1

Last page number:

21

Abstract

Understanding long‐term changes in ecological communities during global change is a priority for 21st‐century ecology. Deserts, already at climatic extremes, are of unique interest because they are projected to be ecosystems most responsive to global change. Within a 500‐km2 landscape in the Mojave Desert, USA, we measured perennial plant communities at 100 sites three times (1979, 2008, and 2016) during 37 yr to evaluate six hypotheses of community change. These hypotheses encompassed shifts in community measures (e.g., diversity, cover) and species elevational distributions, biotic homogenization, disproportionately large change at the highest elevations, relationships between turnover and species’ responses to disturbance and drought, and that environmental refugia (e.g., moist topographic positions) would receive species during climatic warming and drying. Most community measures changed temporally, such as species density (species/600 m2) increasing 23% and plant cover doubling between 1979 and 2016. There was no increase in nonnative species and minimal evidence for biotic homogenization. High‐elevation communities did not display greater change than low‐elevation communities. ... See full text for complete abstract

Keywords

Biotic homogenization; Core-transient model; Elevation; Mojave Desert; Range shift; Refugia; Resistance; Species distribution; Stability

Disciplines

Desert Ecology

File Format

pdf

File Size

3.092 KB

Language

English

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