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Proceedings of the National Academy of Sciences of the United States of America
03 28, 2017;114 (13): 3463-3468.

Flowering phenology shifts in response to biodiversity loss.

Amelia A Wolf, Erika S Zavaleta, Paul C Selmants
Author Information
  1. Amelia A Wolf: Ecology, Evolution, and Environmental Sciences Department, Columbia University, New York, NY 10027; amywolf@gmail.com.
  2. Erika S Zavaleta: Department of Environmental Studies, University of California, Santa Cruz, CA 95064.
  3. Paul C Selmants: Western Geographic Science Center, US Geological Survey, Menlo Park, CA 94025. ORCID
PMID: 28289231 DOI: 10.1073/pnas.1608357114

Abstract

Observational studies and experimental evidence agree that rising global temperatures have altered plant phenology-the timing of life events, such as flowering, germination, and leaf-out. Other large-scale global environmental changes, such as nitrogen deposition and altered precipitation regimes, have also been linked to changes in flowering times. Despite our increased understanding of how abiotic factors influence plant phenology, we know very little about how biotic interactions can affect flowering times, a significant knowledge gap given ongoing human-caused alteration of biodiversity and plant community structure at the global scale. We experimentally manipulated plant diversity in a California serpentine grassland and found that many plant species flowered earlier in response to reductions in diversity, with peak flowering date advancing an average of 0.6 days per species lost. These changes in phenology were mediated by the effects of plant diversity on soil surface temperature, available soil N, and soil moisture. Peak flowering dates were also more dispersed among species in high-diversity plots than expected based on monocultures. Our findings illustrate that shifts in plant species composition and diversity can alter the timing and distribution of flowering events, and that these changes to phenology are similar in magnitude to effects induced by climate change. Declining diversity could thus contribute to or exacerbate phenological changes attributed to rising global temperatures.

Keywords

biodiversity–ecosystem functioning nitrogen soil moisture soil temperature species interactions

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MeSH Term

Biodiversity
California
Climate Change
Ecosystem
Flowers
Phenotype
Plant Development
Seasons
Temperature
Time Factors
Journal Article Research Support, U.S. Gov't, Non-P.H.S.
Article has an altmetric score of 113

Word Cloud

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