亚马逊雨林
环境科学
热身
气候变化
全球变暖
气候学
气候模拟
地理
气候模式
海洋学
生态学
地质学
物理疗法
医学
生物
作者
Ayan Santos Fleischmann,Fabrice Papa,Stephen K. Hamilton,John M. Mélack,Bruce R. Forsberg,Adalberto Luís Val,Walter Collischonn,Leonardo Laipelt,Júlia Brusso Rossi,Bruno Comini de Andrade,Bruna Mendel,Priscila Alves,Maiby Glorize,Lady Custodio,Maria Cecília Gomes,Débora Hymans,Isabela Keppe,Raize Mendes,Renan Gomes,Paula Silva
摘要
In 2023, an unprecedented drought and heatwave severely impacted Amazon waters, leading to high mortality of fishes and river dolphins. Five of 10 lakes monitored showed exceptionally high daytime temperatures (>37°C), with one large lake reaching up to 41°C in the entire ~2-m deep water column, with up to 13°C of diel variation. Modeling show that high solar radiation, reduced water depth and wind speed, and turbid waters are the main drivers of the high temperatures. This extreme heating of Amazon waters follows a long-term increase of 0.6°C/decade revealed by satellite estimates across the region’s lakes between 1990 and 2023. With ongoing climate change, temperatures that approach or exceed thermal tolerances for aquatic life are likely to become more common in tropical aquatic systems.
科研通智能强力驱动
Strongly Powered by AbleSci AI