Page 169 - 《水产学报》2026年第01期

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1 期马浩杰，等：咬齿牡蛎动态能量收支模型的参数获取及构建 50 卷

齿牡蛎的生理实验、模型模拟和历史数据，确定 Yang P, Li J F, Wang F, et al. Present situation and protection
了关键参数，建立了较为普适性的咬齿牡蛎 restoration suggestions on the natural oyster reefs in China[J].
DEB 模型，发现美济礁的温度与食物较大亚湾 Geology in China, 2023, 50(4): 1082-1092 (in Chinese).
更适合咬齿牡蛎生长。该 DEB 模型作为咬齿牡 [ 9 ] 张子牛, 王珍岩, 李桂花, 等. 基于层次分析法的人工鱼礁选
蛎个体生长的预测工具，未来可应用于其他海域。址适宜性评价方法 [J]. 海洋与湖沼, 2023, 54(5): 1308-1321.
在模拟美济礁海域咬齿牡蛎的生长过程中，发现 Zhang Z N, Wang Z Y, Li G H, et al. Evaluation method for
在美济礁海域建立牡蛎礁，咬齿牡蛎的生长主要 site selection suitability of artificial reef areas based on analytic
受食物限制的影响，尤其是 1 月和 7 月限制性较 hierarchy process[J]. Oceanologia et Limnologia Sinica, 2023,
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大。本研究结果可评估不同海域牡蛎的生长繁殖
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（作者声明本文无利益冲突） Crassostrea gigas: investigation through DEB theory[J].
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