PLoS ONE (Jan 2014)

Caribbean-wide, long-term study of seagrass beds reveals local variations, shifts in community structure and occasional collapse.

  • Brigitta I van Tussenbroek,
  • Jorge Cortés,
  • Rachel Collin,
  • Ana C Fonseca,
  • Peter M H Gayle,
  • Hector M Guzmán,
  • Gabriel E Jácome,
  • Rahanna Juman,
  • Karen H Koltes,
  • Hazel A Oxenford,
  • Alberto Rodríguez-Ramirez,
  • Jimena Samper-Villarreal,
  • Struan R Smith,
  • John J Tschirky,
  • Ernesto Weil

DOI
https://doi.org/10.1371/journal.pone.0090600
Journal volume & issue
Vol. 9, no. 3
p. e90600

Abstract

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The CARICOMP monitoring network gathered standardized data from 52 seagrass sampling stations at 22 sites (mostly Thalassia testudinum-dominated beds in reef systems) across the Wider Caribbean twice a year over the period 1993 to 2007 (and in some cases up to 2012). Wide variations in community total biomass (285 to >2000 g dry m(-2)) and annual foliar productivity of the dominant seagrass T. testudinum (2000 g dry m(-2)) were found among sites. Solar-cycle related intra-annual variations in T. testudinum leaf productivity were detected at latitudes > 16°N. Hurricanes had little to no long-term effects on these well-developed seagrass communities, except for 1 station, where the vegetation was lost by burial below ∼1 m sand. At two sites (5 stations), the seagrass beds collapsed due to excessive grazing by turtles or sea-urchins (the latter in combination with human impact and storms). The low-cost methods of this regional-scale monitoring program were sufficient to detect long-term shifts in the communities, and fifteen (43%) out of 35 long-term monitoring stations (at 17 sites) showed trends in seagrass communities consistent with expected changes under environmental deterioration.