Multiple field-based methods to assess the potential impacts of seismic surveys on scallops.
暂无分享,去创建一个
Stefan B. Williams | Zhi Huang | R. Przeslawski | A. Carroll | M. Edmunds | Jade R. Anderson | Lynton Hurt
[1] B. Martin,et al. Effects of 2D seismic on the snow crab fishery , 2018 .
[2] R. McCauley,et al. Exposure to seismic air gun signals causes physiological harm and alters behavior in the scallop Pecten fumatus , 2017, Proceedings of the National Academy of Sciences.
[3] Anthony D. Hawkins,et al. A sound approach to assessing the impact of underwater noise on marine fishes and invertebrates , 2017 .
[4] B. Bruce,et al. A critical review of the potential impacts of marine seismic surveys on fish & invertebrates. , 2017, Marine pollution bulletin.
[5] A. Hawkins,et al. International harmonization of approaches to define underwater noise exposure criteria and needs of the international regulatory community , 2016 .
[6] S. Shumway,et al. Mortality Assessment of Atlantic Sea Scallops (Placopecten magellanicus) from Gray-Meat Disease , 2016, Journal of Shellfish Research.
[7] F. Micheli,et al. Between control and complexity: opportunities and challenges for marine mesocosms , 2016 .
[8] M. Feng,et al. Management adaptation of invertebrate fisheries to an extreme marine heat wave event at a global warming hot spot , 2016, Ecology and evolution.
[9] G. Prideaux,et al. Environmental impact assessment guidelines for offshore petroleum exploration seismic surveys , 2016 .
[10] I. Marsden,et al. Scallop Fisheries, Mariculture, and Enhancement in Australasia , 2016 .
[11] R. McCauley,et al. Assessing the impact of marine seismic surveys on southeast Australian scallop and lobster fisheries , 2016 .
[12] R. Fay,et al. Parvulescu Revisited: Small Tank Acoustics for Bioacousticians. , 2016, Advances in experimental medicine and biology.
[13] R. Fay,et al. "Large" Tank Acoustics: How Big Is Big Enough? , 2016, Advances in experimental medicine and biology.
[14] K. Brokordt,et al. Reproduction reduces HSP70 expression capacity in Argopecten purpuratus scallops subject to hypoxia and heat stress , 2015 .
[15] J. Lewandowski. Transforming conflict into effective action: a case study on the effects of anthropogenic sound on marine mammals , 2015 .
[16] A. Hawkins,et al. Information gaps in understanding the effects of noise on fishes and invertebrates , 2015, Reviews in Fish Biology and Fisheries.
[17] Yaqing Chang,et al. Effect of high temperature on survival, oxygen consumption, behavior, ammonia-N excretion, and related immune indicators of the Japanese scallop Mizuhopecten yessoensis , 2014, Aquaculture International.
[18] Scott D. Foster,et al. Choosing between strategies for designing surveys: autonomous underwater vehicles , 2014 .
[19] N. Holbrook,et al. Projected Tasman Sea Extremes in Sea Surface Temperature through the Twenty-First Century , 2014 .
[20] N. Moltschaniwskyj,et al. Habitat Characteristics Predicting Distribution and Abundance Patterns of Scallops in D’Entrecasteaux Channel, Tasmania , 2014, PloS one.
[21] Zhen-Lin HaoXue-Jiao,et al. Effect of high temperature on survival, oxygen consumption, behavior, ammonia-N excretion, and related immune indicators of the Japanese scallop Mizuhopecten yessoensis , 2014 .
[22] John Atkins,et al. Anthropogenic noise causes body malformations and delays development in marine larvae , 2013, Scientific Reports.
[23] Arne Körtzinger,et al. Food availability outweighs ocean acidification effects in juvenile Mytilus edulis: laboratory and field experiments , 2013, Global change biology.
[24] Claire L. Szostek,et al. Effects of elevated levels of suspended particulate matter and burial on juvenile king scallops Pecten maximus , 2013 .
[25] M. Sievers,et al. Biofouling leads to reduced shell growth and flesh weight in the cultured mussel Mytilus galloprovincialis , 2013, Biofouling.
[26] M. Lech,et al. Integrated Approach to CO2 Storage Assessment in the Offshore South Perth Basin, Australia , 2013 .
[27] G. Daigle,et al. Self-thinning dynamics in experimental scallop populations , 2013, Aquaculture International.
[28] T. Hashimoto,et al. Seafloor features and fluid migration in the Capel and Faust basins, offshore eastern Australia , 2012 .
[29] Alan Williams,et al. Effectiveness of Biological Surrogates for Predicting Patterns of Marine Biodiversity: A Global Meta-Analysis , 2011, PloS one.
[30] G. Hosie,et al. Climate change cascades: Shifts in oceanography, species' ranges and subtidal marine community dynamics in eastern Tasmania , 2011 .
[31] K. Stokesbury,et al. Incidental fishing mortality may be responsible for the death of ten billion juvenile sea scallops in the mid-Atlantic , 2011 .
[32] M. Kelly,et al. Local adaptation in marine invertebrates. , 2011, Annual review of marine science.
[33] Jj Harrington,et al. Assessing the short-term impact of seismic surveys on adult commercial scallops ( Pecten fumatus ) in Bass Strait , 2010 .
[34] Baozhong Liu,et al. Growth, survival and immune activity of scallops, Chlamys farreri Jones et Preston, compared between suspended and bottom culture in Haizhou Bay, China , 2009 .
[35] Michael Jasny,et al. A critique of the UK's JNCC seismic survey guidelines for minimising acoustic disturbance to marine mammals: best practise? , 2009, Marine pollution bulletin.
[36] F. Juanes,et al. Spatio-temporal variations of sea star Asterias spp. distributions between sea scallop Placopecten magellanicus beds on Georges Bank , 2009 .
[37] Raymond N. Gorley,et al. PERMANOVA+ for PRIMER. Guide to software and statistical methods , 2008 .
[38] Steinar Nesse Dnv. Effects of seismic surveys on fish, fish catches and sea mammals , 2007 .
[39] Christopher Platt,et al. Sound Detection Mechanisms and Capabilities of Teleost Fishes , 2003 .
[40] K. R. Clarke,et al. Change in marine communities : an approach to statistical analysis and interpretation , 2001 .
[41] John D. Penrose,et al. MARINE SEISMIC SURVEYS— A STUDY OF ENVIRONMENTAL IMPLICATIONS , 2000 .
[42] W. Zacharin. Growth, reproduction and recruitment of the doughboy scallop, Mimachlamys asperrimus (Lamark) , 1995 .
[43] P. Mann,et al. Stratigraphic development of southwestern Panama as determined from integration of marine seismic data and onshore geology , 1995 .
[44] Sandra E. Shumway,et al. Scallops : biology, ecology, and aquaculture , 1991 .
[45] C. Pitcher,et al. Predation by asteroids, escape response, and morphometrics of scallops with epizoic sponges , 1987 .
[46] M. Hortle,et al. Settlement of the commercial scallop, Pecten fumatus (Reeve) 1855, on artificial collectors in eastern Tasmania , 1987 .
[47] H. Chernoff. Factors affecting mortality of the scallop Chlamys asperrima (Lamarck) and its epizooic sponges in South Australian waters , 1987 .
[48] R. J. Thompson,et al. Influence of temperature and food availability on the ecological energetics of the giant scallop Placopecten magellanicus , 1986 .