Climate drives shifts in grass reproductive phenology across the western USA

The capacity of grass species to alter their reproductive timing across space and through time can indicate their ability to cope with environmental variability and help predict their future performance under climate change. We determined the long-term (1895–2013) relationship between flowering time...

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Bibliographic Details
Published in:The New phytologist 2017-03, Vol.213 (4), p.1945-1955
Main Authors: Munson, Seth M., Long, A. Lexine
Format: Article
Language:English
Subjects:
C3 and C4 grasses
Climate Change
climate change effects
flowering time
Flowers - physiology
functional trait
Geography
herbarium records
Poaceae - physiology
Rain
Reproduction - physiology
Species Specificity
Temperature
United States
water‐limited ecoregions
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Summary:The capacity of grass species to alter their reproductive timing across space and through time can indicate their ability to cope with environmental variability and help predict their future performance under climate change. We determined the long-term (1895–2013) relationship between flowering times of grass species and climate in space and time using herbarium records across ecoregions of the western USA. There was widespread concordance of C3 grasses accelerating flowering time and general delays for C4 grasses with increasing mean annual temperature, with the largest changes for annuals and individuals occurring in more northerly, wetter ecoregions. Flowering time was delayed for most grass species with increasing mean annual precipitation across space, while phenology–precipitation relationships through time were more mixed. Our results suggest that the phenology of most grass species has the capacity to respond to increases in temperature and altered precipitation expected with climate change, but weak relationships for some species in time suggest that climate tracking via migration or adaptation may be required. Divergence in phenological responses among grass functional types, species, and ecoregions suggests that climate change will have unequal effects across the western USA.
ISSN:0028-646X
1469-8137
DOI:10.1111/nph.14327