Ruiz-Barrionuevo Juliana M, Kardas Elif, Rodríguez-Barreras Ruber, Quiñones-Otero Marcos A, Ruiz-Diaz Claudia P, Toledo-Hernández Carlos, Godoy-Vitorino Filipa
Instituto de Ecología Regional (IER), Universidad Nacional de Tucumán (UNT)-Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET), Tucumán, Argentina.
Facultad de Ciencias Naturales e Instituto Miguel Lillo, Universidad Nacional de Tucumán (UNT), Tucumán, Argentina.
Front Microbiol. 2024 Jul 29;15:1409729. doi: 10.3389/fmicb.2024.1409729. eCollection 2024.
In recent decades, Caribbean coral reefs have lost many vital marine species due to diseases. The well-documented mass mortality event of the long-spined black sea urchin in the early 1980s stands out among these collapses. This die-off killed over 90% of changing the reefscape from coral to algal-dominated. Nearly 40 years later, populations have yet to recover. In early 2022, a new mortality event of was reported along the Caribbean, including Puerto Rico.
This study identifies the gut microbiota changes associated with the during this mortality event. It contrasts them with the bacterial composition of gut samples from healthy individuals collected in 2019 by using 16S rRNA sequencing analyses.
Notably, the die-off group's core microbiome resembled bacteria commonly found in the human skin and gut, suggesting potential anthropogenic contamination and wastewater pollution as contributing factors to the 2022 dysbiosis. The animals collected in 2022, especially those with signs of disease, lacked keystone taxa normally found in including and .
The association between human microbes and disease stages in the long-spined urchin , especially in relation to anthropogenic contamination, highlights a complex interplay between environmental stressors and marine health. While these microbes might not be the direct cause of death in this species of sea urchins, their presence and proliferation can indicate underlying issues, such as immune depletion due to pollution, habitat destruction, or climate change, that ultimately compromise the health of these marine organisms.
近几十年来,由于疾病,加勒比珊瑚礁失去了许多重要的海洋物种。20世纪80年代初记录在案的长刺黑海胆大规模死亡事件在这些崩溃事件中尤为突出。这次死亡事件导致超过90%的长刺黑海胆死亡,使珊瑚礁景观从以珊瑚为主转变为以藻类为主。近40年后,长刺黑海胆的数量仍未恢复。2022年初,加勒比地区,包括波多黎各,报告了长刺黑海胆的一次新的死亡事件。
本研究确定了在这次死亡事件期间与长刺黑海胆相关的肠道微生物群变化。通过16S rRNA测序分析,将它们与2019年收集的健康个体肠道样本的细菌组成进行对比。
值得注意的是,死亡群体的核心微生物群类似于人类皮肤和肠道中常见的细菌,这表明潜在的人为污染和废水污染是导致2022年生态失调的因素。2022年收集的长刺黑海胆,尤其是那些有疾病迹象的,缺乏通常在健康长刺黑海胆中发现的关键分类群,包括弧菌属和芽孢杆菌属。
长刺黑海胆中人类微生物与疾病阶段之间的关联,特别是与人为污染有关的关联,突出了环境压力源与海洋健康之间复杂的相互作用。虽然这些微生物可能不是这种海胆死亡的直接原因,但它们的存在和增殖可以表明潜在的问题,如由于污染、栖息地破坏或气候变化导致的免疫耗竭,这些最终会损害这些海洋生物的健康。
