期限(时间)
磁道(磁盘驱动器)
海洋学
环境科学
地质学
计算机科学
物理
量子力学
操作系统
作者
Daniel O. B. Jones,María Belén Arias,Loïc Van Audenhaege,Sabena Blackbird,Corie Boolukos,Guadalupe Bribiesca‐Contreras,Jon Copley,A Dale,Susan Evans,Bethany F. M. Fleming,Andrew R. Gates,H.L.J. Grant,Mark G.J. Hartl,Veerle A.I. Huvenne,Rachel M. Jeffreys,P. Josso,Lucas D. King,Erik Simon‐Lledó,Tim Le Bas,L. Norman
出处
期刊:Nature
[Nature Portfolio]
日期:2025-03-26
卷期号:642 (8066): 112-118
被引量:60
标识
DOI:10.1038/s41586-025-08921-3
摘要
Abstract Deep-sea polymetallic nodule mining is in the exploration phase at present with some groups proposing a move towards extraction within years 1 . Management of this industry requires evidence of the long-term effects on deep-sea ecosystems 2 , but the ability of seafloor ecosystems to recover from impacts over decadal scales is poorly understood 3 . Here we show that, four decades after a test mining experiment that removed nodules, the biological impacts in many groups of organisms are persistent, although populations of several organisms, including sediment macrofauna, mobile deposit feeders and even large-sized sessile fauna, have begun to re-establish despite persistent physical changes at the seafloor. We also reveal that areas affected by plumes from this small-scale test have limited detectable residual sedimentation impacts with some biological assemblages similar in abundance compared to control areas after 44 years. Although some aspects of the modern collector design may cause reduced physical impact compared to this test mining experiment, our results show that mining impacts in the abyssal ocean will be persistent over at least decadal timeframes and communities will remain altered in directly disturbed areas, despite some recolonization. The long-term effects seen in our study provide critical data for effective management of mining activities, if they occur, including minimizing direct impacts and setting aside an effective network of protected areas 4,5 .
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