The Physiological and Biochemical Response of Ribbed Mussels to Rising Temperatures: Benefits of Salt Marsh Cordgrass.

IF 2.2 4区 生物学 Q2 BIOLOGY
Integrative Organismal Biology Pub Date : 2024-08-21 eCollection Date: 2024-01-01 DOI:10.1093/iob/obae031
A Smith, J Erber, A Watson, C Johnson, W E Gato, S B George
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Abstract

Salt marsh ecosystems are heavily reliant on ribbed mussel (Geukensia demissa) populations to aid in rapid recovery from droughts. The focus of this study was thus to document the effects of rising temperatures on ribbed mussel populations in a Georgia salt marsh. Seven lab and eight field experiments were used to assess the effects of current air temperatures on mussels at two high marsh (HM) sites with short and sparse cordgrass and one mid marsh (MM) site with tall and dense cordgrass. Field results in 2018 and 2019 indicate that ribbed mussels were experiencing extremely high temperatures for prolonged periods of time at the landlocked high marsh (LHM) site. In 2018, the highest temperature (54°C) and longest high temperature events, HTEs (58 days), that is, consecutive days with temperatures ≥40°C, were recorded at this site. When laboratory temperatures were increased from 20 to 36°C, mean heart rates increased by an average of 19 bpm for mussels from both high and MM sites respectively. When field temperatures rose from 20°C in April to 40°C in September 2019, mean heart rates increased by an average of 10 bpm for HM mussels and by 26.3 bpm for MM mussels. Under identical laboratory and field conditions, mean heart rates for mussels from the LHM site with the highest temperatures, increased by <1 bpm and 3.7 bpm respectively. Evidence of the potential role of shade on mussel aggregates was provided by examining whether mussels from the edge of mussel aggregates with little to no cordgrass for shade were more stressed than those living at the center of mussel aggregates. In the absence of shade, mean body temperatures for mussels at the edge of mussel aggregates were up to 8°C higher than for those living in the center underneath a dense tuft of cordgrass. Despite high body temperatures, mean heart rates and Hsp70 gene expression were lower for mussels living at the edges. This agrees with the strategy that during prolong exposure to high temperatures, mussels may reduce their heart rate to conserve energy and enhance survival. Alternatively, heat-stressed mussels at the edges of aggregates may not have the resources to express high levels of Hsp70. Increase in the frequency, intensity, and duration of HTEs may stress the physiological and biochemical function of mussel populations to the limit, dictate mussel aggregate size, and threaten the functionality of SE salt marshes.

肋贻贝对气温上升的生理和生化反应:盐沼科迪草的益处。
盐沼生态系统在很大程度上依赖肋贻贝(Geukensia demissa)种群帮助从干旱中迅速恢复。因此,本研究的重点是记录气温上升对佐治亚州盐沼中肋贻贝种群的影响。在两个虫草矮小稀疏的高沼泽(HM)和一个虫草高大茂密的中沼泽(MM),分别进行了七次实验室实验和八次实地实验,以评估当前气温对贻贝的影响。2018年和2019年的实地结果表明,在内陆高沼(LHM)地点,肋贻贝长时间处于极高的温度下。2018 年,该地点记录到最高温度(54°C)和最长高温事件 HTE(58 天),即连续几天温度≥40°C。当实验室温度从 20°C 升至 36°C 时,高温和低温地点的贻贝平均心率分别增加了 19 bpm。当野外温度从2019年4月的20°C升至9月的40°C时,高海拔贻贝的平均心率平均每分钟增加10次,而低海拔贻贝的平均心率平均每分钟增加26.3次。在相同的实验室和野外条件下,温度最高的 LHM 地点的贻贝平均心率增加了
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来源期刊
CiteScore
3.70
自引率
6.70%
发文量
48
审稿时长
20 weeks
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