Boat anchoring impacts coastal populations of the pen shell, the largest bivalve in the Mediterranean

The decline of important coastal habitats, like seagrass meadows, is likely to influence populations of associated species, like the noble pen shell, Pinna nobilis. Here we used a Bayesian formulation of individual covariate models to derive a reliable estimate of populations of P. nobilis in shallow, and thus usually most impacted, areas around the island of Majorca, Balearic Islands, Spain. At six evaluated sites we find quite distinct densities ranging from 1.4 to 10.0 individuals/100 m 2 . These differences in density could not be explained by habitat factors like shoot density and meadow cover, nor did dislodgement by storms (evaluated by maximum wind speeds at the sites) seem to play an important role. However, noble pen shell density was related to anchoring as at sites where anchoring was not permitted the average density was 7.9 individuals/100 m 2 while in sites where ships anchored the density was on average 1.7 individ

[1]  S. Katsanevakis Population dynamics of the endangered fan mussel Pinna nobilis in a marine lake: a metapopulation matrix modeling approach , 2009 .

[2]  J. Andrew Royle,et al.  Hierarchical Modeling and Inference in Ecology: The Analysis of Data from Populations, Metapopulations and Communities , 2008 .

[3]  C. Heip,et al.  Biodiversity Research Still Grounded , 2006, Science.

[4]  L. Perez-Rojas,et al.  Influence of hydrodynamic forces on population structure of Pinna nobilis L., 1758 (Mollusca: Bivalvia): The critical combination of drag force, water depth, shell size and orientation , 2007 .

[5]  M. Milazzo,et al.  Short-term response of the slow growing seagrass Posidonia oceanica to simulated anchor impact. , 2007, Marine environmental research.

[6]  C. M. Duarte,et al.  Age and growth of the fan mussel Pinna nobilis from south-east Spanish Mediterranean seagrass (Posidonia oceanica) meadows , 1999 .

[7]  C. Duarte The future of seagrass meadows , 2002, Environmental Conservation.

[8]  J. Andrew Royle,et al.  Analysis of Multinomial Models With Unknown Index Using Data Augmentation , 2007, Journal of Computational and Graphical Statistics.

[9]  N. Marbà,et al.  Mediterranean seagrass vulnerable to regional climate warming , 2012 .

[10]  Andrew Gelman,et al.  R2WinBUGS: A Package for Running WinBUGS from R , 2005 .

[11]  C. Peterson,et al.  The influence of seagrass cover on population structure and individual growth rate of a suspension-feeding bivalve, Mercenaria mercenaria. , 1984 .

[12]  D. Coltman,et al.  Undesirable evolutionary consequences of trophy hunting , 2003, Nature.

[13]  Comparison of absolute and relative growth patterns among five Pinna nobilis populations along the Tunisian coastline: an information theory approach , 2007 .

[14]  M. Conroy,et al.  Analysis and Management of Animal Populations , 2002 .

[15]  J. Andrew Royle,et al.  Parameter-expanded data augmentation for Bayesian analysis of capture–recapture models , 2010, Journal of Ornithology.

[16]  C. Duarte,et al.  Marine biodiversity and ecosystem services: an elusive link. , 2000, Journal of experimental marine biology and ecology.

[17]  S. Katsanevakis Population ecology of the endangered fan mussel Pinna nobilis in a marine lake , 2004 .

[18]  A. Mccomb,et al.  Effect of boat moorings on seagrass beds near Perth, Western Australia , 1989 .

[19]  J. Nichols,et al.  Statistical inference for capture-recapture experiments , 1992 .

[20]  C. Duarte,et al.  Seagrass Meadows Modify Drag Forces on the Shell of the Fan Mussel Pinna nobilis , 2011 .

[21]  M. Marcos,et al.  Changes in storm surges in southern Europe from a regional model under climate change scenarios , 2011 .

[22]  P. Levin,et al.  Lack of concern deepens the oceans' problems , 2003, Nature.

[23]  R. Cole,et al.  Biological impacts of boating at Kawau Island, north-eastern New Zealand , 2000 .

[24]  Michael Schaub,et al.  Bayesian Population Analysis using WinBUGS: A Hierarchical Perspective , 2011 .

[25]  G. Seber The estimation of animal abundance and related parameters , 1974 .

[26]  Giulia Ceccherelli,et al.  Boat anchoring on Posidonia oceanica beds in a marine protected area (Italy, western Mediterranean): effect of anchor types in different anchoring stages , 2004 .

[27]  N. Marbà,et al.  Direct evidence of imbalanced seagrass (Posidonia oceanica) shoot population dynamics in the Spanish Mediterranean , 2005 .

[28]  J. Lawton,et al.  Organisms as ecosystem engineers , 1994 .

[29]  Patricia A. Zaradic,et al.  Conservation science: a 20‐year report card , 2006 .

[30]  D. Fertl Marine Conservation Biology: The Science of Maintaining the Sea's Biodiversity. , 2007 .

[31]  Frederick T. Short,et al.  Accelerating loss of seagrasses across the globe threatens coastal ecosystems , 2009, Proceedings of the National Academy of Sciences.

[32]  J Andrew Royle,et al.  Analysis of Capture–Recapture Models with Individual Covariates Using Data Augmentation , 2008, Biometrics.

[33]  S. Katsanevakis Density surface modelling with line transect sampling as a tool for abundance estimation of marine benthic species: the Pinna nobilis example in a marine lake , 2007 .

[34]  Andrew Gelman,et al.  General methods for monitoring convergence of iterative simulations , 1998 .

[35]  F. Giorgi,et al.  Climate change projections for the Mediterranean region , 2008 .

[36]  J. Romero,et al.  The seagrasses of the western Mediterranean , 2003 .

[37]  C. Duarte,et al.  Effects of seagrasses and algae of the Caulerpa family on hydrodynamics and particle-trapping rates , 2010 .

[38]  S. Ormerod Current issues with fish and fisheries: editor's overview and introduction , 2003 .

[39]  Andrew Thomas,et al.  WinBUGS - A Bayesian modelling framework: Concepts, structure, and extensibility , 2000, Stat. Comput..

[40]  Núria Marbà,et al.  Mediterranean warming triggers seagrass (Posidonia oceanica) shoot mortality , 2009 .

[41]  P. Addis,et al.  Density, size structure, shell orientation and epibiontic colonization of the fan mussel Pinna nobilis L. 1758 (Mollusca: Bivalvia) in three contrasting habitats in an estuarine area of Sardinia (W Mediterranean) , 2009 .

[42]  Jun S. Liu,et al.  Parameter Expansion for Data Augmentation , 1999 .

[43]  Peter J. Hogarth,et al.  Physical Ecosystem Engineers and the Functioning of Estuaries and Coasts , 2011 .

[44]  Giacomo Tavecchia,et al.  Recapture probability underwater: predicting the detection of the threatened noble pen shell in seagrass meadows , 2012 .

[45]  Carlos M. Duarte,et al.  Thresholds of hypoxia for marine biodiversity , 2008, Proceedings of the National Academy of Sciences.

[46]  S. Katsanevakis Growth and mortality rates of the fan mussel Pinna nobilis in Lake Vouliagmeni (Korinthiakos Gulf, Greece): a generalized additive modelling approach , 2007 .

[47]  R. Sardà,et al.  Spatial analysis of recreational boating as a first key step for marine spatial planning in Mallorca (Balearic Islands, Spain) , 2011 .

[48]  T. Bouma,et al.  Ecosystem engineering and biodiversity in coastal sediments: posing hypotheses , 2009, Helgoland Marine Research.

[49]  C. Duarte,et al.  Experimental assessment and modeling evaluation of the effects of the seagrass Posidonia oceanica on flow and particle trapping , 2008 .

[50]  Felicia C. Coleman,et al.  Overexploiting marine ecosystem engineers: potential consequences for biodiversity , 2002 .

[51]  D. M. Ha,et al.  A gentle introduction , 2006 .