Recruitment of a threatened foundation oyster species varies with large and small spatial scales

IF 4.3 2区 环境科学与生态学 Q1 ECOLOGY Ecological Applications Pub Date : 2024-04-01 DOI:10.1002/eap.2968
Rick C. Leong, Ana B. Bugnot, Pauline M. Ross, Katherine R. Erickson, Mitchell C. Gibbs, Ezequiel M. Marzinelli, Wayne A. O'Connor, Laura M. Parker, Alistair G. B. Poore, Elliot Scanes, Paul E. Gribben
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Abstract

Understanding how habitat attributes (e.g., patch area and sizes, connectivity) control recruitment and how this is modified by processes operating at larger spatial scales is fundamental to understanding population sustainability and developing successful long-term restoration strategies for marine foundation species—including for globally threatened reef-forming oysters. In two experiments, we assessed the recruitment and energy reserves of oyster recruits onto remnant reefs of the oyster Saccostrea glomerata in estuaries spanning 550 km of coastline in southeastern Australia. In the first experiment, we determined whether recruitment of oysters to settlement plates in three estuaries was correlated with reef attributes within patches (distances to patch edges and surface elevation), whole-patch attributes (shape and size of patches), and landscape attributes (connectivity). We also determined whether environmental factors (e.g., sedimentation and water temperature) explained the differences among recruitment plates. We also tested whether differences in energy reserves of recruits could explain the differences between two of the estuaries (one high- and one low-sedimentation estuary). In the second experiment, across six estuaries (three with nominally high and three with nominally low sedimentation rates), we tested the hypothesis that, at the estuary scale, recruitment and survival were negatively correlated to sedimentation. Overall, total oyster recruitment varied mostly at the scale of estuaries rather than with reef attributes and was negatively correlated with sedimentation. Percentage recruit survival was, however, similar among estuaries, although energy reserves and condition of recruits were lower at a high- compared to a low-sediment estuary. Within each estuary, total oyster recruitment increased with patch area and decreased with increasing tidal height. Our results showed that differences among estuaries have the largest influence on oyster recruitment and recruit health and this may be explained by environmental processes operating at the same scale. While survival was high across all estuaries, growth and reproduction of oysters on remnant reefs may be affected by sublethal effects on the health of recruits in high-sediment estuaries. Thus, restoration programs should consider lethal and sublethal effects of whole-estuary environmental processes when selecting sites and include environmental mitigation actions to maximize recruitment success.

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受威胁的基础牡蛎物种的新陈代谢随大小空间尺度的变化而变化。
了解栖息地属性(如斑块面积和大小、连通性)如何控制招募,以及在更大空间尺度上运作的过程如何改变招募,对于了解种群可持续性和为海洋基础物种(包括全球濒危的成礁牡蛎)制定成功的长期恢复战略至关重要。在两项实验中,我们评估了澳大利亚东南部海岸线长达 550 公里的河口地区牡蛎 Saccostrea glomerata 残礁上牡蛎新兵的招募和能量储备情况。在第一项实验中,我们确定了三个河口中牡蛎在沉降板上的繁殖是否与斑块内的珊瑚礁属性(到斑块边缘的距离和表面高程)、整个斑块属性(斑块的形状和大小)以及景观属性(连通性)相关。我们还确定了环境因素(如沉积作用和水温)是否可以解释不同招募板块之间的差异。我们还测试了新生物能量储备的差异是否可以解释两个河口(一个高沉积河口和一个低沉积河口)之间的差异。在第二个实验中,我们在六个河口(三个名义上沉积率较高,三个名义上沉积率较低)测试了一个假设,即在河口范围内,新蚝的招募和存活与沉积呈负相关。总体而言,牡蛎的总招募量主要随河口尺度而变化,而不是随礁石属性而变化,并且与沉积作用呈负相关。然而,各河口的新蚝存活率相似,尽管高沉积河口的新蚝能量储备和状态低于低沉积河口。在每个河口,牡蛎的总繁殖量随补丁面积的增加而增加,随潮汐高度的增加而减少。我们的研究结果表明,不同河口之间的差异对牡蛎新仔和新仔健康的影响最大,这可能是由于在同一尺度上运行的环境过程造成的。虽然所有河口的牡蛎存活率都很高,但在高沉积物河口,牡蛎在残余礁石上的生长和繁殖可能会受到对新生牡蛎健康的亚致死效应的影响。因此,在选择地点时,恢复计划应考虑整个河口环境过程的致死和亚致死效应,并包括环境缓解措施,以最大限度地提高招募成功率。
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来源期刊
Ecological Applications
Ecological Applications 环境科学-环境科学
CiteScore
9.50
自引率
2.00%
发文量
268
审稿时长
6 months
期刊介绍: The pages of Ecological Applications are open to research and discussion papers that integrate ecological science and concepts with their application and implications. Of special interest are papers that develop the basic scientific principles on which environmental decision-making should rest, and those that discuss the application of ecological concepts to environmental problem solving, policy, and management. Papers that deal explicitly with policy matters are welcome. Interdisciplinary approaches are encouraged, as are short communications on emerging environmental challenges.
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