The national nature reserves in China: Are they effective in conserving mangroves?

• Published in: Ecological indicators Vol. 142; p. 109265
• Main Authors: Lu, Chunyan, Li, Lin, Wang, Zili, Su, Yanlin, Su, Yue, Huang, Yufei, Jia, Mingming, Mao, Dehua
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.09.2022; Elsevier
• Subjects: Conservation effectiveness; Landscape development intensity index; National mangrove nature reserve; Object-oriented deep learning classification; Systematic assessment; Systematic assessment; Conservation effectiveness; National mangrove nature reserve; Landscape development intensity index; Object-oriented deep learning classification
• ISSN: 1470-160X; 1872-7034
• DOI: 10.1016/j.ecolind.2022.109265

•A frame of conservation effectiveness evaluation for mangrove nature reserves was proposed.•Results indicate most NMNRs was effective for conserving mangroves in China during 1987–2019.•The improvement to the conservation effectiveness was largely attributed to the implementation of protection activities.•Remote sensing-based method provides efficient evaluation of conservation effectiveness for NMNRs. Mangroves are high-productive ecosystems and globally protected. Establishing nature reserves aimed at counteracting the negative effects of anthropogenic activities is one of the most pivotal approaches to conserve mangrove ecosystems. Evaluation of the conservation effectiveness for mangrove nature reserves is thus indispensable for making knowledge-based conservation policies and funding-decisions by government and managers. In this study, using composited Landsat images by the Google Earth Engine cloud platform and object-oriented deep learning classification method, the land cover maps of national mangrove nature reserves (NMNRs) in China were obtained from 1987 to 2019. The systematic evaluation of conservation effectiveness for each NMNR was conducted by landscape metrics and an entropy weight model. Combined with the dynamics in mangrove distribution, human interference intensity, and natural environment change, the driving force factors affecting the conservation effectiveness for NMNRs were investigated. The results show that the total mangrove area in all NMNRs increased 968.6 ha during the study period, a 21.8 % rate of increase. Except for one NMNR with a slight decline, the conservation of remaining NMNRs was considered effective with increase varied from 14.8 % to 87.5 % in the level of protective efficacy. The conservation effectiveness of NMNRs was affected by both anthropogenic and natural factors, while the improvement to the conservation effectiveness was largely attributed to the implementation of protection policies, such as reforestation engineering. Further direct or indirect challenges in mangrove conservation effectiveness, e.g., pollution, natural disasters, and exotic species invasion, still require close attention. This study provides an effective and efficient approach to quantify the conservation effectiveness of mangrove nature reserves, which would facilitate mangrove conservation and management in the future.