与邻近自然栖息地的鲷鱼相比,在贻贝养殖场觅食能使鲷鱼更肥美

IF 1.1 Q3 FISHERIES Aquaculture, Fish and Fisheries Pub Date : 2024-03-13 DOI:10.1002/aff2.155
Lucy H. Underwood, Maria Mugica, Andrew G. Jeffs
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引用次数: 0

摘要

野生鱼类出现在水产养殖生境内和周围通常被认为是对这些生境内食物资源的反 应,这些食物资源可能来自投入的饲料、养殖物种的存在和/或水产养殖结构中自然生 长的生物污点的组合。野生鱼类在水产养殖生境中摄取的食物资源的营养质量对决定其营养状况和随后的生产力也很重要。很少有研究调查水产养殖生境中猎物的营养质量,这些研究大多集中在投喂型水产养殖中,即在野生鱼类的食物中添加人工鱼丸。然而,在非投喂型水产养殖中,养殖和生物污损物种的组合也可能为在这些生境中摄食的鱼类提供营养。在新西兰沿海贻贝养殖场中,澳州鲷(Chrysophrys auratus)通常以成鱼出现,并往往成为常驻物种。本研究调查了新西兰绿唇贻贝养殖场内外软沉积生境中鲷鱼肠道内容物的营养质量。从贻贝养殖场和自然栖息地(即对照组)采样的鲷鱼肠道内容物中测量了总脂质、蛋白质、碳水化合物和总热量含量。贻贝养殖场中的甲鱼通过食用贻贝养殖场中富含脂质的双壳贝和藤壶摄入的脂质(16%对8%)是对照组的两倍。较高的脂质摄入量有助于改善鲷鱼的营养状况、繁殖和生长。然而,贻贝养殖场中鲷鱼较高的膳食脂质摄入量并没有提高其整体身体状况(即富尔顿状态指数)。这可能是由于该指标的粗略性,也可能是由于额外的脂质被用于更快的体细胞生长或繁殖产出,这些可能性都值得进一步研究。总之,这项研究首次显示了贝类养殖在为沿海鱼类种群提供有营养价值的猎物方面的潜在生态系统效益。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Feasting in mussel farms fattens up snapper (Chrysophrys auratus) compared to snapper in adjacent natural habitats

The presence of wild fish in and around aquaculture habitats is often assumed a response to food resources within these habitats, either from input feed, the presence of cultured species, and/or the assemblage of biofouling that naturally colonises aquaculture structures. The nutritional quality of the food resources consumed by wild fish in aquaculture habitats is also important in determining their nutritional condition and subsequent productivity. Few studies have investigated the nutritional quality of prey in aquaculture habitats, and these have mostly focused on fed aquaculture by tracking manufactured fish pellets into the diets of wild fish. However, in non-fed aquaculture, the assemblage of cultured and biofouling species may also provide a nutritional benefit to fish feeding in these habitats. The Australasian snapper, Chrysophrys auratus, are commonly present as adults within coastal mussel farms in New Zealand and tend to become a resident species. This study investigated the nutritional quality of the gut contents of snapper in soft-sediment habitats within and outside of New Zealand green-lipped mussel farms. Total lipid, protein, carbohydrate and total calorific content were measured from the gut contents of snapper sampled from mussel farm and natural (i.e. control) habitats. Snapper in mussel farms had double the dietary intake of lipid (16% vs. 8%) from consuming lipid-rich bivalves and barnacles which are in abundance in mussel farms. Higher lipid intake can contribute to improved nutritional condition, reproduction and growth in snapper. However, the higher dietary lipid intake of snapper in mussel farms did not increase their overall body condition (i.e. Fulton condition index). This may be due to the coarse nature of this measure, or the use of the additional lipid in more rapid somatic growth or reproductive outputs, possibilities that warrant examination through further research. Overall, this study shows for the first time the potential ecosystem benefits of shellfish aquaculture in provisioning nutritionally valuable prey for coastal fish populations.

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