| 刺参对浅海筏式贝类养殖系统的修复潜力 |
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| 引用本文: | 袁秀堂,杨红生,周毅,毛玉泽,许强,王丽丽.刺参对浅海筏式贝类养殖系统的修复潜力[J].应用生态学报,2008,19(4):866-872. |
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| 作者姓名: | 袁秀堂 杨红生 周毅 毛玉泽 许强 王丽丽 |
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| 作者单位: | 1.中国科学院海洋研究所, 山东青岛 266071;;2.国家海洋环境监测中心, 辽宁大连 116023;;3.中国水产科学研究院黄海水产研究所, 山东青岛 266071 |
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| 基金项目: | 国家自然科学基金
,
国家科技支撑计划
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国家高技术研究发展计划(863计划)
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国家908专项基金 |
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| 摘 要: | 浅海筏式养殖滤食性贝类产生大量的粪便和假粪(总称生物沉积物),对海水养殖环境产生一系列影响;而沉积食性海参能够有效清除颗粒有机物,在海水养殖系统中扮演“清道夫”的生态角色.为评估刺参在浅海筏式贝类养殖系统中的生物修复潜力,本文在不同季节现场研究了贝 参混养模式下刺参对贝类生物沉积物的摄食及生长和排泄特征.结果表明: 刺参能够在新设计的养殖设施中与滤食性贝类混养,最大生长率达0.34%·d-1; 并可通过摄食有效清除贝类生物沉积物, 摄食率为0.1746 g·g-1·d-1(夏季,21.2 ℃)、0.0989 g·g-1·d-1(秋季,19.2 ℃)和0.0050 g·g-1·d-1(冬季,7.7 ℃);刺参主要通过排泄溶解形态的NH4+N和PO43- -P来促进沉积物中营养盐的再生,其排泄率也呈现明显的季节变化.基于现场试验数据,估算了刺参在桑沟湾的生物修复潜力, 刺参与贝类混养可摄食4.5~159.6 kg·hm-2·d-1生物沉积物、排泄1 382.5~3 678.1 mmol·hm-2·d-1NH4+ -N及74.6~335.7 mmol·hm-2·d-1PO43--P.表明刺参对浅海筏式贝类养殖系统具有较大的生物修复潜力,贝-参混养模式不仅能够取得较大的生态效益,而且能显著增加养殖生产的经济效益.
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| 关 键 词: | 北重楼 气候变化 MaxEnt模型 主导气候因子 潜在适生区 |
| 文章编号: | 1001-9332(2008)04-0866-07 |
| 收稿时间: | 2007-07-04 |
| 修稿时间: | 2007年7月4日 |
Bioremediation potential of Apostichopus japonicus (Selenka) in coastal bivalve suspension aquaculture system. |
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| YUAN Xiu-tang,YANG Hong-sheng,ZHOU Yi,MAO Yu-ze,XU Qiang,WANG Li-li.Bioremediation potential of Apostichopus japonicus (Selenka) in coastal bivalve suspension aquaculture system.[J].Chinese Journal of Applied Ecology,2008,19(4):866-872. |
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| Authors: | YUAN Xiu-tang YANG Hong-sheng ZHOU Yi MAO Yu-ze XU Qiang WANG Li-li |
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| Institution: | 1.Institute of Oceanology, Chinese Academy of Sciences, Qingdao 266071, Shandong, China;2.National Marine Environmental Monitoring Center, Dalian 116023, Liaoning, China;3.Yellow Sea Fisheries Research Institute, Chinese Academy of Fisheries Science, Qingdao 266071, Shandong, China |
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| Abstract: | Suspension aquaculture of filter-feeding bivalves can produce large amount of faeces and pseudofaeces (biodeposits) that may impact aquaculture environment, while deposit-feeding sea cucumbers may effectively utilize such particulate wastes and act as a scavenger in mariculture system. In this paper, the ingestion, growth, and excretion of deposit-feeder Apostichopus japonicus were investigated in situ seasonally to evaluate its bioremediation potential of a suspension aquaculture system of filter-feeding bivalves. The results showed that A. japonicus could grow well in newly designed culture nets, with its maximum specific growth rate being 0.34% d(-1). The A. japonicus could effectively use the biodeposits generated by co-cultured bivalves, and the ingestion rate at 21.2 degrees C in summer, 19.2 degrees C in autumn, and 7.7 degrees C in winter was 0.1746, 0.0989, and 0.0050 g g(-1) d(-1), respectively. A. japonicus could promote the regeneration of nutriens in biodeposits via the excretion of considerable amount of dissolved N and P, and the excretion also showed obvious seasonal fluctuation. The extrapolation based on the in situ investigation results showed that when co-cultivated with bivalves in lantern nets, A. japonicus would ingest 4.5-159.6 kg hm(-2) d(-1) of dry biodeposits and excrete 1,382.5-3,678.1 mmol hm(-2) d(-1) of NH4(+)-N and 74.6-335.7 mmol hm(-2) d(-1) of PO4(3-)-P, indicating that the deposit-feeding A. japonicus had a great bioremediation capability in suspension aquaculture systems. The integrated model of deposit-feeding A. japonicus and filter-feeding bivalve could not only benefit the economy, but also sustain the environment. |
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| Keywords: | MaxEnt model dominant climate factor Paris verticillata climate change potential suitable area |
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