Site selection and carrying capacity in Mediterranean ... - FAO Sipam
Site selection and carrying capacity in Mediterranean ... - FAO Sipam
Site selection and carrying capacity in Mediterranean ... - FAO Sipam
You also want an ePaper? Increase the reach of your titles
YUMPU automatically turns print PDFs into web optimized ePapers that Google loves.
165 GFCM:XXXV/2011/Dma.9<br />
Acta Adriatica, 50: 59-76. impact<br />
50 Papageorgiou N., Sigala K., Karakassis I., (2009). Changes of macrofaunal<br />
functional composition at sedimentary habitats <strong>in</strong> the vic<strong>in</strong>ity of fish farms.<br />
Estuar. Coast. Shelf Sci. 83: 561-568.<br />
51 Pitta P., Tsapakis M., Apostolaki E.T., Tsagaraki T., Holmer M., Karakassis<br />
I., (2009). 'Ghost nutrients' from fish farms are transferred up the food web by<br />
phytoplankton grazers. Mar<strong>in</strong>e Ecology Progress Series, 374: 1-6.<br />
52 Sara G., Zenone A., Tomasello A., (2009). Growth of Mytilus<br />
galloprov<strong>in</strong>cialis (mollusca, bivalvia) close to fish farms: a case of <strong>in</strong>tegrated<br />
multi-trophic aquaculture with<strong>in</strong> the Tyrrhenian Sea. Hydrobiologia, Article <strong>in</strong><br />
Press.<br />
53 Stamou A.I., Karamanoli M., Vassiliadou N., Douka E., Bergamasco A.,<br />
Cenobese L., (2009). Mathematical model<strong>in</strong>g of the <strong>in</strong>teractions between<br />
aquacultures <strong>and</strong> the sea environment. Desal<strong>in</strong>ation 248: 826-835.<br />
54 Tomassetti P., Persia E., Mercatali I., Vani D., Marusso V., Porrello S.,<br />
(2009). Effects of mariculture on macrobenthic assemblages <strong>in</strong> a western<br />
<strong>Mediterranean</strong> site. Mar<strong>in</strong>e Pollution Bullet<strong>in</strong> 58: 533-541.<br />
55 Vidovic J., Cosovic V., Juracic M., Petricioli D., (2009). Impact of fish<br />
farm<strong>in</strong>g on foram<strong>in</strong>iferal community, Drvenik Veliki Isl<strong>and</strong>, Adriatic Sea,<br />
Croatia. Mar<strong>in</strong>e Pollution Bullet<strong>in</strong>, 58: 1297-1309<br />
56 Vizz<strong>in</strong>i S., (2009). Analysis of the trophic role of <strong>Mediterranean</strong> seagrasses <strong>in</strong><br />
mar<strong>in</strong>e coastal ecosystems: A review. Botanica Mar<strong>in</strong>a, 52: 383-393.<br />
57 Yabanli M., Egemen Oe., (2009). Monitor<strong>in</strong>g the environmental impacts of<br />
mar<strong>in</strong>e aquaculture activities on the water column <strong>and</strong> the sediment <strong>in</strong> vic<strong>in</strong>ity<br />
of the Karaburun Pen<strong>in</strong>sula (Turkey – Eastern Aegean Sea). J.<br />
FisheriesSciences.com 3: 207-213.<br />
58 Yucel-Gier G., Uslu O., Kucuksezg<strong>in</strong> F., (2009). Regulat<strong>in</strong>g <strong>and</strong> monitor<strong>in</strong>g<br />
mar<strong>in</strong>e f<strong>in</strong>fish aquaculture <strong>in</strong> Turkey. Journal of Applied Ichthyology, 25:<br />
686-694.<br />
59 Balata D., Bertocci I., Piazzi L., Nesti U., (2008). Comparison between<br />
epiphyte assemblages of leaves <strong>and</strong> rhizomes of the seagrass Posidonia<br />
oceanica subjected to different levels of anthropogenic eutrophication. Estuar.<br />
Coast. Shelf Sci 79: 533-540.<br />
60 Canadas A., Hammond P.S., (2008). Abundance <strong>and</strong> habitat preferences of the<br />
short-beaked common dolph<strong>in</strong> Delph<strong>in</strong>us delphis <strong>in</strong> the southwestern<br />
<strong>Mediterranean</strong>: Implications for conservation. Endangered Species Res 4:<br />
309-331.<br />
61 De Gaetano P., Doglioli A.M., Magaldi M.G., Vassallo P., Fabiano M.,<br />
(2008). FOAM- a new simple benthic degradative module for the LAMP3D<br />
model: An application to a <strong>Mediterranean</strong> fish farm. Aquac Res 39: 1229-<br />
1242.<br />
62 Diaz Lopez B., Bunke M., Bernal Shirai J.A., (2008). Mar<strong>in</strong>e aquaculture off<br />
Sard<strong>in</strong>ia Isl<strong>and</strong> (Italy): Ecosystem effects evaluated through a trophic massbalance<br />
model. Ecol Model 212: 292-303.<br />
63 Diaz-Almela E., Marba N., Alvarez E., Santiago R, Holmer M., Grau A.,<br />
Mirto S., Danovaro R., Petrou A., Argyrou M., Karakassis I., Duarte C.M.,<br />
(2008). Benthic <strong>in</strong>put rates predict seagrass (Posidonia oceanica) fish farm<strong>in</strong>duced<br />
decl<strong>in</strong>e. Mar. Pollut. Bull 56: 1332-1342.<br />
64 Dimitriadis C., Koutsoubas D., (2008). Community properties of benthic<br />
molluscs as <strong>in</strong>dicators of environmental stress <strong>in</strong>duced by organic enrichment.<br />
J Nat Hist 42: 559-574.<br />
65 Fern<strong>and</strong>ez-Jover D., Sanchez-Jerez P., Bayle-Sempere J.T., Valle C.,<br />
Dempster T., (2008). Seasonal patterns <strong>and</strong> diets of wild fish assemblages<br />
associated with <strong>Mediterranean</strong> coastal fish farms. ICES Journal of Mar<strong>in</strong>e<br />
Science, 65: 1153-1160.<br />
66 Giles H., (2008). Us<strong>in</strong>g Bayesian networks to exam<strong>in</strong>e consistent trends <strong>in</strong><br />
fish farm benthic impact studies. Aquaculture 274: 181–195.<br />
165<br />
fish sediment chemistry<br />
fish nutrients<br />
fish<br />
fish nitrogen<br />
phosphorus<br />
fish sediments<br />
mathematical models<br />
benthic fauna<br />
fish foram<strong>in</strong>ifera<br />
fish mar<strong>in</strong>e phanerogams<br />
fish sediments<br />
water column<br />
fish monitor<strong>in</strong>g<br />
fish Posidonia oceanica<br />
fish biodiversity<br />
fish benthic chemistry<br />
fish ecosystem<br />
model biodegradation<br />
mass balance<br />
fish Posidonia oceanica<br />
fish benthic macrofauna<br />
fish wild fish<br />
fish sediments<br />
monitor<strong>in</strong>g<br />
benthic macrofauna