Microbial role in the carbon cycle in tropical inland aquatic ecosystems

92.8K

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80

authors

14

articles

Microbial role in the carbon cycle in tropical inland aquatic ecosystems

92.8K

views

80

authors

14

articles

Editorial

19 January 2017

Editorial: Microbial Role in the Carbon Cycle in Tropical Inland Aquatic Ecosystems

André M. Amado

and

Fábio Roland

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10 citations

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2

André Megali Amado

Juiz de Fora Federal University

Juiz de Fora Federal University

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Aquatic microorganisms are tidily related to the carbon cycle in aquatic systems, especially in respect to its accumulation and emission to atmosphere. In one hand, the autotrophs are responsible for the carbon input to the ecosystems and trophic chain. On the other hand, the heterotrophs traditionally play a role in the carbon mineralization and, since microbial loop theory, may play a role to carbon flow through the organisms. However, it is not yet clear how the heterotrophs contribute to carbon retention and emission especially from tropical aquatic ecosystems.

Most of the studies evaluating the role of microbes to carbon cycle in inland waters were performed in high latitudes and only a few studies in the tropical area. In the prospective of global changes where the warm tropical lakes and rivers become even warmer, it is important to understand how microorganisms behave and interact with carbon cycle in the Earth region with highest temperature and light availability. We expect contributions as reviews, meta-analysis, insights or original work about autotrophs and heterotrophs roles to carbon cycle in tropical inland ecosystems.

Aquatic microorganisms are tidily related to the carbon cycle in aquatic systems, especially in respect to its accumulation and emission to atmosphere. In one hand, the autotrophs are responsible for the carbon input to the ecosystems and trophic chain. On the other hand, the heterotrophs traditionally play a role in the carbon mineralization and, since microbial loop theory, may play a role to carbon flow through the organisms. However, it is not yet clear how the heterotrophs contribute to carbon retention and emission especially from tropical aquatic ecosystems.

Most of the studies evaluating the role of microbes to carbon cycle in inland waters were performed in high latitudes and only a few studies in the tropical area. In the prospective of global changes where the warm tropical lakes and rivers become even warmer, it is important to understand how microorganisms behave and interact with carbon cycle in the Earth region with highest temperature and light availability. We expect contributions as reviews, meta-analysis, insights or original work about autotrophs and heterotrophs roles to carbon cycle in tropical inland ecosystems.

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Editors

André Megali Amado

Juiz de Fora Federal University

Juiz de Fora Federal University

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Frontiers in Microbiology

Aquatic Microbiology

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Frontiers in Marine Science

Aquatic Microbiology

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