Literature DB >> 33728823

Climate change transforms the functional identity of Mediterranean coralligenous assemblages.

Daniel Gómez-Gras1, Cristina Linares2, Maria Dornelas3, Joshua S Madin4, Viviana Brambilla3, Jean-Baptiste Ledoux5, Paula López-Sendino1, Nathaniel Bensoussan1, Joaquim Garrabou1.   

Abstract

Quantifying changes in functional community structure driven by disturbance is critical to anticipate potential shifts in ecosystem functioning. However, how marine heatwaves (MHWs) affect the functional structure of temperate coral-dominated communities is poorly understood. Here, we used five long-term (> 10 years) records of Mediterranean coralligenous assemblages in a multi-taxa, trait-based analysis to investigate MHW-driven changes in functional structure. We show that, despite stability in functional richness (i.e. the range of species functional traits), MHW-impacted assemblages experienced long-term directional changes in functional identity (i.e. their dominant trait values). Declining traits included large sizes, long lifespans, arborescent morphologies, filter-feeding strategies or calcified skeletons. These traits, which were mostly supported by few sensitive and irreplaceable species from a single functional group (habitat-forming octocorals), disproportionally influence certain ecosystem functions (e.g. 3D-habitat provision). Hence, MHWs are leading to assemblages that are deficient in key functional traits, with likely consequences for the ecosystem functioning.
© 2021 The Authors. Ecology Letters published by John Wiley & Sons Ltd.

Entities:  

Keywords:  Community structure; disturbance; functional change; functional diversity; functional ecology; reefs; stability; temperate; warming

Year:  2021        PMID: 33728823     DOI: 10.1111/ele.13718

Source DB:  PubMed          Journal:  Ecol Lett        ISSN: 1461-023X            Impact factor:   9.492


  2 in total

1.  Population collapse of habitat-forming species in the Mediterranean: a long-term study of gorgonian populations affected by recurrent marine heatwaves.

Authors:  D Gómez-Gras; C Linares; A López-Sanz; R Amate; J B Ledoux; N Bensoussan; P Drap; O Bianchimani; C Marschal; O Torrents; F Zuberer; E Cebrian; N Teixidó; M Zabala; S Kipson; D K Kersting; I Montero-Serra; M Pagès-Escolà; A Medrano; M Frleta-Valić; D Dimarchopoulou; P López-Sendino; J Garrabou
Journal:  Proc Biol Sci       Date:  2021-12-22       Impact factor: 5.349

2.  Marine heatwaves drive recurrent mass mortalities in the Mediterranean Sea.

Authors:  Joaquim Garrabou; Daniel Gómez-Gras; Alba Medrano; Carlo Cerrano; Massimo Ponti; Robert Schlegel; Nathaniel Bensoussan; Eva Turicchia; Maria Sini; Vasilis Gerovasileiou; Nuria Teixido; Alice Mirasole; Laura Tamburello; Emma Cebrian; Gil Rilov; Jean-Baptiste Ledoux; Jamila Ben Souissi; Faten Khamassi; Raouia Ghanem; Mouloud Benabdi; Samir Grimes; Oscar Ocaña; Hocein Bazairi; Bernat Hereu; Cristina Linares; Diego Kurt Kersting; Graciel la Rovira; Júlia Ortega; David Casals; Marta Pagès-Escolà; Núria Margarit; Pol Capdevila; Jana Verdura; Alfonso Ramos; Andres Izquierdo; Carmen Barbera; Esther Rubio-Portillo; Irene Anton; Paula López-Sendino; David Díaz; Maite Vázquez-Luis; Carlos Duarte; Nuria Marbà; Eneko Aspillaga; Free Espinosa; Daniele Grech; Ivan Guala; Ernesto Azzurro; Simone Farina; Maria Cristina Gambi; Giovanni Chimienti; Monica Montefalcone; Annalisa Azzola; Torcuato Pulido Mantas; Simonetta Fraschetti; Giulia Ceccherelli; Silvija Kipson; Tatjana Bakran-Petricioli; Donat Petricioli; Carlos Jimenez; Stelios Katsanevakis; Inci Tuney Kizilkaya; Zafer Kizilkaya; Stephane Sartoretto; Rouanet Elodie; Sandrine Ruitton; Steeve Comeau; Jean-Pierre Gattuso; Jean-Georges Harmelin
Journal:  Glob Chang Biol       Date:  2022-07-18       Impact factor: 13.211
  2 in total

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