Murali Gopal, Iwamura Takuya, Meiri Shai, Roll Uri
Jacob Blaustein Center for Scientific Cooperation, The Jacob Blaustein Institutes for Desert Research, Ben-Gurion University of the Negev, Midreshet Ben-Gurion, Israel.
Mitrani Department of Desert Ecology, The Swiss Institute for Dryland Environments and Energy Research, The Jacob Blaustein Institutes for Desert Research, Ben-Gurion University of the Negev, Midreshet Ben-Gurion, Israel.
Nature. 2023 Mar;615(7952):461-467. doi: 10.1038/s41586-022-05606-z. Epub 2023 Jan 18.
The frequency, duration, and intensity of extreme thermal events are increasing and are projected to further increase by the end of the century. Despite the considerable consequences of temperature extremes on biological systems, we do not know which species and locations are most exposed worldwide. Here we provide a global assessment of land vertebrates' exposures to future extreme thermal events. We use daily maximum temperature data from 1950 to 2099 to quantify future exposure to high frequency, duration, and intensity of extreme thermal events to land vertebrates. Under a high greenhouse gas emission scenario (Shared Socioeconomic Pathway 5-8.5 (SSP5-8.5); 4.4 °C warmer world), 41.0% of all land vertebrates (31.1% mammals, 25.8% birds, 55.5% amphibians and 51.0% reptiles) will be exposed to extreme thermal events beyond their historical levels in at least half their distribution by 2099. Under intermediate-high (SSP3-7.0; 3.6 °C warmer world) and intermediate (SSP2-4.5; 2.7 °C warmer world) emission scenarios, estimates for all vertebrates are 28.8% and 15.1%, respectively. Importantly, a low-emission future (SSP1-2.6, 1.8 °C warmer world) will greatly reduce the overall exposure of vertebrates (6.1% of species) and can fully prevent exposure in many species assemblages. Mid-latitude assemblages (desert, shrubland, and grassland biomes), rather than tropics, will face the most severe exposure to future extreme thermal events. By 2099, under SSP5-8.5, on average 3,773 species of land vertebrates (11.2%) will face extreme thermal events for more than half a year period. Overall, future extreme thermal events will force many species and assemblages into constant severe thermal stress. Deep greenhouse gas emissions cuts are urgently needed to limit species' exposure to thermal extremes.
极端热事件的频率、持续时间和强度正在增加,预计到本世纪末还会进一步上升。尽管极端温度对生物系统有相当大的影响,但我们尚不清楚全球哪些物种和地区受影响最大。在此,我们对陆地脊椎动物未来遭受极端热事件的情况进行了全球评估。我们使用1950年至2099年的每日最高温度数据,来量化陆地脊椎动物未来遭受极端热事件的高频率、持续时间和强度的情况。在高温室气体排放情景(共享社会经济路径5-8.5(SSP5-8.5);全球变暖4.4°C)下,到2099年,所有陆地脊椎动物中的41.0%(哺乳动物为31.1%,鸟类为25.8%,两栖动物为55.5%,爬行动物为51.0%)将在至少一半的分布范围内遭受超出其历史水平的极端热事件。在中高排放情景(SSP3-7.0;全球变暖3.6°C)和中等排放情景(SSP2-4.5;全球变暖2.7°C)下,所有脊椎动物的估计比例分别为28.8%和15.1%。重要的是,低排放的未来情景(SSP1-2.6,全球变暖1.8°C)将大大减少脊椎动物的总体受影响程度(6.1%的物种),并能在许多物种组合中完全避免受影响。中纬度地区的生物群落(沙漠、灌丛和草原生物群落),而非热带地区,将面临未来极端热事件最严重的影响。到2099年,在SSP5-8.5情景下,平均有3773种陆地脊椎动物(11.2%)将面临超过半年的极端热事件。总体而言,未来的极端热事件将迫使许多物种和生物群落持续面临严重的热应激。迫切需要大幅削减温室气体排放,以限制物种遭受极端高温的影响。
