Thermal Preference and Tolerance of the Black Abalone Haliotis cracherodii (Leach 1814) (Gastropoda: Prosobranchia)

IF 0.7 4区 生物学 Q4 MARINE & FRESHWATER BIOLOGY
Pacific Science Pub Date : 2022-09-22 DOI:10.2984/76.2.2
F. Díaz, Ana Denise Re Araujo, Fabiola Lafarga-De la Cruz, M. Tripp-Valdez
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引用次数: 0

Abstract

Abstract: Haliotis cracherodii is the only abalone species listed as critically endangered (IUCN Red List) and protected under the Endangered Species Act (ESA) since 2009. The population started decreasing in the mid-1980s throughout its biogeographical range due to the “withering syndrome” disease. The objective of this study was to evaluate the thermoregulation of the black abalone, establishing its preferred temperature, locomotion displacement, and critical thermal maximum (CTMax). The preferred temperature (PT) was 13.8 °C. The theoretical temperature for optimal growth of the black abalone was 14.3 °C. The locomotion displacement in the gradient had an interval of 137 to 83 cm h–1. CTMax was evaluated, the first abalone detached from the substrate at a temperature of 25.4 °C and the last one at 31 °C; CTMax of 50% was calculated at 29.7 °C. These data will allow us to maintain and condition the black abalone in captivity with the final goal of producing seed for the restoration of disease-impacted populations on the Baja California Peninsula. ENSO events may also affect the survival of black abalone. We extrapolated the Thermal Safety Margin (TSM) = (28.8 – 18.31 °C) = 10.49 °C in weak ENSOs, but in stronger ENSO the TSM value diminishes to 3.17 °C suggesting that black abalone may be vulnerable to climate change.
黑鲍鱼Haliotis cracherodii (Leach 1814)的热偏好和耐受性(腹足目:原鳃目)
摘要/ Abstract摘要:cracherodii鲍鱼是世界上唯一被列为极度濒危物种(IUCN红色名录)的鲍鱼,自2009年以来一直受到《濒危物种法》(ESA)的保护。20世纪80年代中期,由于“枯萎综合征”疾病,整个生物地理范围内的人口开始减少。本研究的目的是评估黑鲍鱼的体温调节,确定其首选温度,运动位移和临界热最大值(CTMax)。首选温度(PT)为13.8℃。黑鲍鱼最适生长的理论温度为14.3℃。梯度运动位移间隔为137 ~ 83 cm h-1。测定CTMax,第一个鲍鱼在25.4℃下与底物分离,最后一个鲍鱼在31℃下与底物分离;在29.7°C时计算50%的CTMax。这些数据将使我们能够维持和调节圈养的黑鲍鱼,最终目标是为下加利福尼亚半岛受疾病影响的种群恢复生产种子。ENSO事件也可能影响黑鲍鱼的生存。在较弱的ENSO中,热安全裕度(TSM) =(28.8 ~ 18.31°C) = 10.49°C,而在较强的ENSO中,TSM值降至3.17°C,表明黑鲍鱼可能易受气候变化的影响。
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来源期刊
Pacific Science
Pacific Science 生物-动物学
CiteScore
1.40
自引率
14.30%
发文量
17
审稿时长
3 months
期刊介绍: Pacific Science: A Quarterly Devoted to the Biological and Physical Sciences of the Pacific Region The official journal of the Pacific Science Association. Appearing quarterly since 1947, Pacific Science is an international, multidisciplinary journal reporting research on the biological and physical sciences of the Pacific basin. It focuses on biogeography, ecology, evolution, geology and volcanology, oceanography, paleontology, and systematics. In addition to publishing original research, the journal features review articles providing a synthesis of current knowledge.
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