2015
DOI: 10.1111/raq.12097
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Effects of environmental and farm stress on abalone physiology: perspectives for abalone aquaculture in the face of global climate change

Abstract: Many abalone farms are reliant on coastal water inputs which are subject to fluctuations in environmental variables such as temperature, oxygen, CO 2 and salinity. Near future climate change scenarios predict that there will be more frequent extreme weather events which can exacerbate these fluctuations and potentially be deleterious to farmed abalone where these variables remain largely uncontrolled. In this review, we have taken an in depth examination of current literature on the effects of environmental st… Show more

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Cited by 121 publications
(107 citation statements)
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References 184 publications
(465 reference statements)
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“…Further, suboptimal low salinity causes added stress to the abalone Haliotis varia Linnaeus when exposed to toxic substances (Lasut 1999). As in other marine mollusks, cell volume is regulated during variation in external salinity using intracellular free amino acids as osmotic solutes (Baginski and Pierce 1975;Amende and Pierce 1980) causing changes in water content and weight of abalone (Morash and Alter 2016). In our study, the lowest salinity (20 ppt) is the least favorable to the growth of H. diversicolor.…”
Section: Discussionmentioning
confidence: 59%
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“…Further, suboptimal low salinity causes added stress to the abalone Haliotis varia Linnaeus when exposed to toxic substances (Lasut 1999). As in other marine mollusks, cell volume is regulated during variation in external salinity using intracellular free amino acids as osmotic solutes (Baginski and Pierce 1975;Amende and Pierce 1980) causing changes in water content and weight of abalone (Morash and Alter 2016). In our study, the lowest salinity (20 ppt) is the least favorable to the growth of H. diversicolor.…”
Section: Discussionmentioning
confidence: 59%
“…Greater growth of some mollusks at lower salinities is due to the lower energetic cost of ionic and osmotic regulation, high food intake, efficient food conversion ratio, high retention of nutrients, low excretion of metabolites and low oxygen consumption (Ghiretti 1966). On the other hand, at higher salinities abalone spends more energy in counteracting stress rather than investing in growth, thus resulting in reduced growth rate (Morash and Alter 2016). It has been implicated that during seasonal salinity fluctuations the chemical balance between the environment and the body fluids is disrupted and efforts to regain homeostatic balance is an energetically costly process for abalone (Martello et al 1998;Morash and Alter 2016).…”
Section: Discussionmentioning
confidence: 99%
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“…Owing to its protrusive structure [10], removing small pieces of tissue from it does not influence the survival and growth of abalone and the impaired epithelium in incision sites can recover in 2 months even though the sites are not filled with granulation tissue [11]. Indeed, all abalone that provided small pieces of mantle in our study survived and did not show any abnormal sign in their growth during the 6-month observation period after tissue sampling.…”
mentioning
confidence: 83%
“…The value (e.g., growth and quality) of surviving animals can also be impaired (Morash and Alter 2015). Age is known to be an important factor for mollusks when investigating their reaction to stressors brought on by climate change (Clark et al 2013).…”
Section: Introductionmentioning
confidence: 99%