Journal
APPLIED VEGETATION SCIENCE
Volume 24, Issue 1, Pages -Publisher
WILEY
DOI: 10.1111/avsc.12556
Keywords
California grasslands; facilitation; heat islands; humidity; stress gradient hypothesis; temperature; urban ecology; vapor pressure deficit
Categories
Funding
- NOAA CIMEC Education Outreach Grant [231688]
- California State University Los Angeles
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The study observed microclimate amelioration among neighboring plants along urban gradient in the greater Los Angeles area, showing strong cooling effects of vegetation during the day and warming effects at night. These effects were most pronounced on the hottest/driest days and at the hottest sites.
Aim Microclimate amelioration between neighboring plants may be more common in environments with greater abiotic stress. This pattern has been shown in deserts, alpine systems, and forests, but has not been explored along urban severity gradients. In this study we hypothesized that strong temperature gradients in the greater Los Angeles area might be driving changes in microclimate amelioration in annual grasslands. Location Twenty-seven sites along a 100-km latitudinal, 72-km longitudinal urban gradient across the greater Los Angeles area in California, USA. Methods We measured macro- and microclimate variables during the 2019 growing season. We took measurements of temperature, humidity, and vapor pressure deficit (VPD) at the site level as well as under grass canopies. Results We found strong cooling effects of the vegetation during the day and warming effects from vegetation at night. We found that these effects were strongest on the hottest/driest days and at the hottest (and often most urban) sites. Conclusions Our microclimate amelioration data suggest that positive interactions might become stronger along urban temperature gradients and may be determining plant interactions in these areas in a way that was not previously considered.
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