Species ocurrence data

This research delves into the fascinating world of mangroves and their inhabitants, particularly focusing on the diverse marine species, notably snails. The MaxEnt model serves as a powerful tool in predicting the potential global distribution of mangrove snails, with a specific emphasis on Cerithidea rhizophorarum and Telescopium telescopium in the Potamididae family. The findings highlight the pivotal role of temperature and depth as the primary influencers shaping the distribution patterns of mangrove snails. For C. rhizophorarum, coastal areas with a temperature range of 20-25°C and a depth of 0-900m emerge as the most suitable habitats in both present and future models. On the other hand, T. telescopium thrives in coastal regions with temperatures between 30-33°C and depths ranging from 0-900m. The study's projections into the future, particularly in 2100, underscore the impact of global warming on the habitat suitability for mangrove snails. The models predict a contraction in the high suitability habitat, indicating the vulnerability of mangrove snails under evolving climate conditions. In a broader context, these findings contribute significantly to our understanding of the intricate relationship between mangrove habitats and snails. The research provides valuable insights that can serve as a foundation for conservation initiatives aimed at preserving the biodiversity and ecological functions of these vital coastal ecosystems amidst the challenges posed by climate change. The keywords—Mangrove snails, MaxEnt modeling, Climate change, and Global species distribution—succinctly capture the essence of the research, encapsulating its key components for easy reference and further exploration.

本研究深入探究红树林及其栖息生物的奇妙生态系统，重点关注其中丰富多样的海洋物种，尤以螺类为核心研究对象。最大熵模型（MaxEnt）作为强有力的预测工具，被用于推演红树林螺类的全球潜在分布范围，其中尤其聚焦蟹守螺科（Potamididae）下的红树塞克螺（Cerithidea rhizophorarum）与望远镜螺（Telescopium telescopium）两个物种。 研究结果凸显了温度与水深作为塑造红树林螺类分布格局的核心驱动因子的关键作用。针对红树塞克螺（Cerithidea rhizophorarum），无论是当前气候情景还是未来预测模型中，水温20-25℃、水深0-900m的近岸区域均为其最适宜栖息地。而望远镜螺（Telescopium telescopium）则偏好栖息于水温30-33℃、水深0-900m的近岸海域。本研究针对2100年的未来气候情景预测结果，进一步凸显了全球变暖对红树林螺类栖息地适宜性的影响：模型预测高适宜栖息地范围将出现缩减，这表明红树林螺类在持续变化的气候条件下面临生存脆弱性问题。 从更宏观的生态视角来看，本研究结果极大深化了我们对红树林栖息地与螺类之间复杂互作关系的认知。本研究所得的宝贵结论，可为应对气候变化挑战下的这类重要海岸生态系统的生物多样性保护与生态功能维系工作提供理论支撑，助力相关保护举措的落地实施。本研究的关键词——红树林螺类、最大熵模型建模、气候变化、全球物种分布——精准凝练了研究的核心内容，便于后续参考与拓展研究。