阮灼豪，等                                                                水产学报, 2025, 49(12): 129501




                           Review of the development status of fishery-photovoltaic
                                               complementary system



                                                         1,2
                                          1
                                                                           2
                            RUAN Zhuohao  ,     YAO Huajia  ,     ZENG Weiwei  ,     HUANG Wen  1, 2*
                   1. Key Laboratory of Animal Nutrition and Feed Science in South China, Ministry of Agriculture and Rural Affairs,
              GuangdongProvincial Key Laboratory of Animal Breeding and Nutrition, Collaborative Innovation Center of Aquatic Sciences,
                       Guangdong Academy of Agricultural Sciences, Institute of Animal Science, Guangzhou 510640, China;
                             2. School of Life Science and Engineering, Foshan University, Foshan 528225, China



              Abstract: This review takes the fishery-photovoltaic complementary system (FPS) as the research object. It deeply probes into
              its current development status and future trends at home and abroad. Also, it systematically assesses its potential advantages in
              tackling climate change, optimizing the energy structure, and boosting aquaculture efficiency. Through literature analysis and
              summary induction, this study systematically combs through the models of the fishery-photovoltaic complementary system, its
              adaptability to the aquatic environment, and the interaction mechanisms with aquaculture activities. Summary of findings reveal
              that the fishery-photovoltaic complementary system, as an innovative combination mode of energy and aquaculture, can not
              only effectively utilize spatial resources to realize the dual-functional realization of power generation and aquaculture, but also
              positively contribute to the reduction of water evaporation, the cooling of photovoltaic components, and the conservation of
              land resources. However, at present, the system still faces many challenges in the mechanisms of environmental impact, the
              durability of photovoltaic components, and the synergy with fishery activities. The review suggests that in the future, basic
              research should be strengthened. Project site selection and layout should be optimized. Ecological protection and professional
              management should be given priority. And relevant policies and standards should be perfected. All these measures are aimed at
              promoting the sustainable development of the fishery-photovoltaic complementary system.
              Key words: fishery; greenhouse effect; photovoltaic; fishery-photovoltaic complementary system
              Corresponding author: HUANG Wen. E-mail: huangwen549@126.com
              Funding projects:  Guangdong  Academy  of  Agricultural  Science  Talent  Program  (R2020YJ-QG001,  R2022PY-QY008,
              R2022YJ-YB3014); Guangdong Laboratory for Lingnan Modern Agriculture Project (DT20220019); Key Mission of Guang-
              dong Province Rural Science and Technology Special Envoys from 2024 to 2026 (KTP20240689)




























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