Non-native fishes homogenize native fish communities and reduce ecosystem multifunctionality in tropical lakes over 16 years.

Non-native species are considered a major global threat to biodiversity, and their expansion to new ecosystems has recently increased. However, the effect of non-native species on ecosystem functioning is poorly understood, especially in hyperdiverse tropical ecosystems of which long-term studies are scarce. We analyzed the relationship between richness, biomass, and ß-diversity of non-native and native fishes during 16 years in five hyperdiverse tropical shallow lakes. We further elucidated how an observed increase in the proportion of richness, biomass, and ß-diversity of non-native over native fishes affect crucial multifunctional processes of lakes (decomposition, productivity). We found a general positive relationship between the richness and biomass of non-native and native fishes. However, the slope of this relationship decreased continuously with time, displaying an increase in non-native species richness and a decrease in native species richness over time. We also detected a negative relationship between the ß-diversity of non-native and native fishes over time. Moreover, the increase in the non-native:native ratio of species richness, biomass, and ß-diversity over time decreased ecosystem multifunctionality. Our results suggest that non-native fishes caused a homogenization of the native fish species over time, resulting in impoverishment of ecosystem multifunctionality; in part because non-native fishes are less productive than native ones. Therefore, focus on long-term effects and use of multiple biodiversity facets (α- and ß-diversity) are crucial to make reliable predictions of the effects of non-native fish species on native fishes and ecosystem functioning.

Fish die-off in river and reservoir: A review on anoxia and gas supersaturation

Albeit massive fish mortality has an extraordinary visual impact and is certainly a fatality, we still have rudimentary understanding on how addressing this problem in the Neotropical region. The processes that lead to fish die-off events are complex and sometimes ephemeral, which can lead to incorrect diagnosis. In this review, we discuss these events in Neotropical freshwaters, both in areas impacted by dams and natural environment, with a focus on deaths mediated by the lack of oxygen (anoxia) or the excess of dissolved gases (gas supersaturation). We examine the available knowledge about the related mechanisms, lethal thresholds for dissolved oxygen (DO) and total dissolved gases (TDG) for fish, and the sequelae of gas bubble disease (GBD). An assessment of the main mortality events in Brazil in the last 10 years is also presented, as well as the best practices for monitoring, prevention, and mitigation. Finally, it is concluded that the proliferation of hydroelectric plants in the Neotropical region might contribute to the expansion of these events and, consequently, increasing of impacts on fish conservation. We consider urgent the inclusion of this topic in the licensing processes for new hydropower projects by the environmental agencies.(AU)

Embora mortandades massivas de peixes tenham impacto visual extraordinário e sejam certamente uma fatalidade, estamos ainda engatinhando no entendimento e na solução desse problema. Os processos que levam aos eventos de mortes de peixes são complexos e algumas vezes efêmeros, o que explica diagnoses incorretas. Nessa revisão nós discutimos esses eventos em bacias hidrográficas neotropicais, tanto em barragens como em ambientes naturais, porém com o foco nas mortes por falta de oxigênio (anoxia) ou excesso de gases dissolvidos (supersaturação gasosa). Em particular são examinados o conhecimento disponível acerca dos processos que levam a essas condições, os limiares letais de oxigênio dissolvido (OD) e gases totais dissolvidos (GTD) para os peixes e as sequelas da doença das bolhas de gás (DBG). Uma avaliação dos principais eventos de mortandade que ocorreram no Brasil nos últimos 10 anos é também apresentada, bem como discutidas as melhores práticas para o monitoramento, prevenção e mitigação. Conclui-se, finalmente, que a proliferação de hidrelétricas deve contribuir com a expansão desses eventos e consequentemente com mais um fator de ameaça à biodiversidade. Consideramos urgente a inclusão desse tema nos processos de licenciamento de novos empreendimentos pelo órgão ambiental.(AU)