模拟气候变化对多花蔷薇全球分布的影响。

Q3 Environmental Science
Shun-Ting Yang, Hui-Chun Wang, Wei-Kun Jing, Qi-Gang Wang, Hui-Jun Yan, Xian-Qin Qiu, Hong-Ying Jian
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引用次数: 0

摘要

多花蔷薇起源于东亚,是现代玫瑰的始祖之一。它也是玫瑰栽培的重要遗传资源和砧木。由于其抗性强、生长旺盛,多花蔷薇已成为北美等一些引种地的入侵物种。为了探讨多花蔷薇的适宜生境与气候变化之间的相关性,我们基于1246条分布记录和9个生物气候变量,利用优化的MaxEnt模型预测了多花蔷薇的潜在地理分布。结果表明,最冷季度的平均气温、最冷月的最低气温、最暖季度的降水量和等温线是影响多花蛇潜在地理分布的重要生物气候变量。在目前的气候条件下,多花甘蓝自然分布在黄土高原东部和南部的平原和丘陵地区。全新世中期的分布格局与其目前的分布格局相似,但华北平原南部、四川盆地和长江中下游平原的部分地区是其高度适宜分布区。在上一个间冰期,适宜区普遍向南偏移,而高度适宜区明显扩大,主要分布在四川盆地、长江中下游平原、云贵高原和东南丘陵地区。除了在东亚的自然分布外,五色草还被引入并传播到欧洲大部分地区以及美国中部和东部。在 2041-2060 年和 2081-2100 年期间,在三种不同的共同社会经济路径(SSP1-2.6、SSP2-4.5 和 SSP5-8.5)的气候变暖情景下,多花金线莲的分布面积将扩大。其平均分布中心(中心点)将向高纬度移动,这表明多花蔷薇的分布与气候变化密切相关,全球变暖可能会导致其分布区域的扩大。这些结果将加深我们对多花蔷薇生态适应性的认识,有助于预测其未来的分布,并为其引入后的监测和预警措施提供理论依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Simulation of climate change effect on the global distribution of Rosa multiflora.

Rosa multiflora, originated from East Asia, is one of the original ancestors of modern roses. It is also an important genetic resource and rootstock for rose cultivation. Due to its high resistance and vigorous growth, R. multiflora has become an invasive species in some introduction sites, such as North America. To explore the correlation between the suitable habitat of R. multiflora and climate change, we predicted its potential geographic distribution with an optimized MaxEnt model based on 1246 distribution records and nine bioclimatic variables. The results showed that the mean temperature of the coldest quarter, minimum temperature of the coldest month, precipitation of the warmest quarter, and isothermality were significant bioclimatic variables affecting the potential geographic distribution of R. multiflora. Under current climate conditions, R. multiflora naturally distributed in the plains and hilly areas to the east and south of the Loess Plateau. The distribution pattern in the mid-holocene was similar to its current distribution, but the highly suitable distribution area was in the south of North China Plain, the Sichuan Basin, and parts of the Middle-Lower Yangtze Plain. During the last interglacial, the suitable areas generally contrac-ted southward, while the highly suitable areas significantly expanded and mainly located in the Sichuan Basin, the Middle-Lower Yangtze Plains, the Yunnan-Guizhou Plateau, and the Southeast Hills. Beyond its natural distribution in East Asia, R. multiflora had been introduced and spread to most parts of Europe and the central and eastern United States. The distribution area of R. multiflora would expand under three warming scenarios of different shared socioeconomic pathways (SSP1-2.6, SSP2-4.5, and SSP5-8.5) during 2041-2060 and 2081-2100. Its average distribution center (centroid) would shift towards higher latitude, indicating that the distribution of R. multiflora was closely related to climate change and that global warming might lead to an expansion of its distribution area. These results would improve our understanding of the ecological adaptability of R. multiflora, facilitate the predicting of its future distribution, and provide a theoretical basis for monitoring and early warning measures following its introduction.

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来源期刊
应用生态学报
应用生态学报 Environmental Science-Ecology
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2.50
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