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Warm and cool-edge populations reveal high resilience of seagrass (Posidonia oceanica) to warming
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  • Scott Bennett,
  • Teresa Alcoverro,
  • Demetris Kletou,
  • Charalampos Antoniou,
  • Jordi Boada,
  • Xavier Buñuel Moreno,
  • Lidia Cucala,
  • Gabriel Jorda,
  • Periklis Kleitou,
  • Guillem Roca,
  • Julia Santana-Garcon,
  • Ioannis Savva,
  • Adriana Verges,
  • Núria Marbà
Scott Bennett
University of Tasmania

Corresponding Author:[email protected]

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Teresa Alcoverro
Spanish Institution for Scientific Research
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Demetris Kletou
Marine & Environmental Research MER Lab Ltd
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Charalampos Antoniou
Marine & Environmental Research MER Lab Ltd
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Jordi Boada
Centre d'Estudis Avançats de Blanes
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Xavier Buñuel Moreno
CEAB
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Lidia Cucala
IMEDEA
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Gabriel Jorda
Instituto Espanol de Oceanografia Centro Oceanografico de Baleares
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Periklis Kleitou
Marine & Environmental Research MER Lab Ltd
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Guillem Roca
IMEDEA
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Julia Santana-Garcon
IMEDEA
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Ioannis Savva
Marine & Environmental Research MER Lab Ltd
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Adriana Verges
School of Biological Sciences, University of New South Wales
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Núria Marbà
IMEDEA (CSIC-UIB), Institut Mediterrani d’Estudis Avançats
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Abstract

Disentangling spatial variation in climate change impacts is a pressing challenge. Here we compared the performance of Posidonia oceanica seagrass populations to temperature, throughout a year-long translocation experiment across 2800 km in the Mediterranean Sea. Transplants in central and warm-edge locations experienced temperatures >29 ºC during summer, representing thermal anomalies >5ºC above long-term maxima for cool-edge populations, 1.5ºC for central and <1ºC for warm-edge populations. At the onset of the experiment, a highly selective herbivory event removed 75% of cool-to-warm transplant biomass but left adjacent central and warm-edge treatments intact. Despite big differences in thermal stress and acute herbivory, cool-edge populations recovered and matched warm-edge populations across all performance metrics. Central populations displayed significantly lower growth and survivorship in response to thermal stress. Our findings reveal that intraspecific variation in thermal performance does not necessarily reflect thermal geography and suggest greater resilience to warming for Posidonia oceanica than previously recognised.