Название: Marine Mussels
Автор: Elizabeth Gosling
Издательство: John Wiley & Sons Limited
Жанр: Техническая литература
isbn: 9781119293934
isbn:
230 Mathiesen, S.S., Thyrring, J., Hemmer‐Hansen, J., Berge, J., Sukhotin, A., Leopold, P. et al. (2017) Genetic diversity and connectivity within Mytilus spp. in the subarctic and Arctic. Evolutionary Applications, 10, 39–55.
231 Matozzo, V. & Marin, M.G. (2011) Bivalve immune responses and climate changes: is there a relationship? Invertebrate Survival Journal, 8, 70–77.
232 McDonald, J.H., Koehn, R.K., Balakirev, E.S., Manchenko, G.P., Pudovkin, A.I., Sergiyevskii, S.O. et al. (1990) Species identity of the common mussel inhabiting Asiatic coats of the Pacific Ocean. Soviet Journal of Marine Biology, 16, 10–18.
233 McDonald, J.I. (2012) Detection of the tropical mussel species Perna viridis in temperate Western Australia: possible association between spawning and a marine heat pulse. Aquatic Invasions, 7, 483–490.
234 McQuaid, C. & Dower, K. (1990) Enhancement of habitat heterogeneity and species richness on rocky shores inundated by sand. Oecologia, 84, 142–144.
235 McQuaid, C.D., Porri, F., Nicastro, K.R. & Zardi, G.I. (2015) Simple, scale‐dependent patterns emerge from very complex effects‐an example from the intertidal mussels Mytilus galloprovincialis and Perna perna. In: Oceanography and Marine Biology: An Annual Review (eds R.N. Hughes, D.J. Hughes, I.P. Smith & A.C. Dale), pp. 127–156. Taylor & Francis, Abingdon.
236 Mee, L.D., Friedrich, J. & Gomoiu, M.T. (2005) Restoring the Black Sea in times of uncertainty. Oceanography, 18, 100–111.
237 Meire, L., Soetaert, K.E.R. & Meysman, F.J.R. (2013) Impact of global change on coastal oxygen dynamics and risk of hypoxia. Biogeosciences, 10, 2633–2653.
238 Melzner, F., Stange, P., Trübenbach, K., Thomsen, J., Casties, I., Panknin, U. et al. (2011) Food supply and seawater pCO2 impact calcification and internal shell dissolution in the blue mussel Mytilus edulis. PLoS ONE, 6, e24223.
239 Melzner, F., Thomsen, J., Koeve, W., Oschlies, A., Gutowska, M.A., Bange, H.W. et al. (2013) Future ocean acidification will be amplified by hypoxia in coastal habitats. Marine Biology, 160, 1875–8188.
240 Mendez, M.M., Livore, J.P. & Bigatti, G. (2019) Interaction of natural and anthropogenic stressors on rocky shores: community resistance to trampling. Marine Ecology Progress Series, 631, 117–126.
241 Menge, B.A. (1992) Community regulation: under what conditions are bottom‐up factors important on rocky shores? Ecology, 73, 755–765.
242 Menge, B.A. Berlow, E.L., Blanchette, C., Navarrete, S.A. & Yamada, S.B. (1994) The keystone species concept: variation in interaction strength in a rocky intertidal habitat. Ecological Monographs, 64, 249–286.
243 Menge, B.A., Chan, F. & Lubchenco, J. (2008) Response of a rocky intertidal ecosystem engineer and community dominant to climate change. Ecology Letters, 11, 151–162.
244 Merrill, A.S. & Turner, R.D. (1963) Nest building in the bivalve genera Musculus and Lima. Veliger, 6, 55–59.
245 Michaelidis, B., Ouzounis, C., Paleras, A. & Pörtner, H.O. (2005) Effects of long‐term moderate hypercapnia on acid–base balance and growth rate in marine mussels Mytilus galloprovincialis. Marine Ecology Progress Series, 293, 109–118.
246 Micheli F, Heiman, K.W., Kappel, C.V., Martone, R.G., Sethi, S.A., Osio, G.C. et al. (2016) Combined impacts of natural and human disturbances on rocky shore communities. Ocean and Coastal Management, 126, 42−50.
247 Miller, L.P. (2013) The effect of water temperature on drilling and ingestion rates of the dogwhelk Nucella lapillus feeding on Mytilus edulis mussels in the laboratory. Marine Biology, 160, 1489–1496.
248 Minchinton, T.E., Scheibling, R.E. & Hunt, H.L. (1997) Recovery of an intertidal assemblage following a rare occurrence of scouring by sea‐ice in Nova‐Scotia, Canada. Botanica Marina, 40, 139–148.
249 Mislan, K.A.S., Wethey, D.S. & Helmuth, B. (2009) When to worry about the weather: role of tidal cycle in determining patterns of risk in intertidal ecosystems. Global Change Biology, 15, 3056–3065.
250 Moeser, G.M., Leba, H. & Carrington, E. (2006) Seasonal influence of wave action on thread production in Mytilus edulis. Journal of Experimental Biology, 209, 881–890.
251 Monaco, C.J., Wethey, D.S. & Helmuth, B. (2016) Thermal sensitivity and the role of behavior in driving an intertidal predator–prey interaction. Ecological Monographs, 86, 429–447.
252 Montalto, V., Helmuth, B., Rut, P.M., Dell’Aquila, A., Rinaldi, A. & Sarà, G. (2016) A mechanistic approach reveals non linear effects of climate warming on mussels throughout the Mediterranean Sea. Climatic Change, 139, 293–306.
253 Mora, C., Wei, C‐L., Rollo, A., Amaro, T., Baco, A.R., Billett, D. et al. (2013) Biotic and human vulnerability to projected changes in ocean biogeochemistry over the 21st century. PLoS ONE, 11, e1001682.
254 Nagarajan, R., Goss‐Custard, J.D. & Lea, S.E.G. (2002a) Oystercatchers use colour preference to achieve longer‐term optimality. Proceeding of the Royal Society London B, 269, 523–528.
255 Nagarajan, R., Lea, S.E.G. & Goss‐Custard, J.D. (2002b) Reevaluation of patterns of mussel (Mytilus edulis) selection by European Oystercatchers (Haematopus ostralegus). Canadian Journal of Zoology, 80, 846–853.
256 Navarrete, S.A. & Menge, B. (1996) Keystone predation and interaction strength: interactive effects of predators on their main prey. Ecolgical Monographs, 66, 409–429.
257 Navarrete, S.A., Menge, B.A. & Bryon, A. (2000) Species interactions in intertidal food webs: prey or predation regulation of intermediate predators? Ecology, 81, 2264–2277.
258 Navarro, J.M., Torres, R., Acuña, K., Duarte, C., Manriquez, P.H., Lardies, M. et al. (2013) Impact of medium‐term exposure to elevated pCO2 levels on the physiological energetics of the mussel Mytilus chilensis. Chemosphere, 90, 1242–1248.
259 Navarro, J.M., Duarte, C., Manríquez, P.H., Lardies, M.A., Torres, R., Acuña, K. et al. (2016) Ocean warming and elevated carbon dioxide: multiple stressor impacts on juvenile mussels from southern Chile. ICES Journal of Marine Science, 73, 764–771.
260 Nehls, G. & Ruth, M. (1994) Eiders, mussels, and fisheries in the Wadden Sea: continuous conflicts or relaxed relations. Ophelia, 56, 263–278.
261 Newcomb, L.A., George, M.N., O’Donnell, M.J. & Carrington, E. (2019) Only as strong as the weakest link: structural analysis of the combined effects of elevated temperature and pCO2 on mussel attachment. Conservation Physiology, 7, coz068.
262 Newell, C.R. & Richardson, J. (2014) The effects of ambient and aquaculture structure hydrodynamics on the food supply and demand of mussel rafts. Journal of Shellfish Research, 33, 257–272.
263 Nicastro, K.R., Zardi, G.I., McQuaid, C.D., Pearson, G.A. & Serrão, E.A. (2012) Love thy neighbour: group properties of gaping behaviour in mussel aggregations. PLoS ONE, 7, e47382.
264 NIMPIS (2002) Musculista senhousia species summary. National Introduced Marine Pest Information System (eds C.L. Hewitt, R.B Martin, C. Sliwa, F.R. McEnnulty, F.R. Murphy, N.E. Jones et al.). Available at: http://crimp.marine.csiro.au/nimpis (accessed 28 May 2021).
265 Nishizaki, M.T., Barron, S. & Carew, E. (2015) Thermal stress increases СКАЧАТЬ