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Nitrogen mineralization and eutrophication risks in mangroves receiving shrimp farming effluents

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Nitrogen (N) inputs originated from shrimp farming effluents were evaluated for potential changes in the net N mineralization for mangrove soils from Northeastern Brazil. Our study provides notable information and… Click to show full abstract

Nitrogen (N) inputs originated from shrimp farming effluents were evaluated for potential changes in the net N mineralization for mangrove soils from Northeastern Brazil. Our study provides notable information and assessment for the potential enhancement of N mineralization in preserved and shrimp-impacted semi-arid mangrove soils of the Jaguaribe River estuary, which is one of the largest shrimp producers of Brazil, using an analytical and daily tidal variation experimental approach. Nitrogen-rich effluents promoted a significant ( p value < 0.001) increase of the total soil N content (1998 ± 201 mg kg −1 on average) compared with the preserved sites (average: 1446 ± 295 mg kg −1 ). The effluents also increased the N mineralization in the shrimp-impacted sites (N-min: 86.6 ± 37.5 mg kg −1 ), when compared with preserved mangroves (N-min: 56.5 ± 23.8 mg kg −1 ). Over a daily tidal variation experiment, we found that just 30% (36.2 ± 20.6 mg kg −1 ) of mineralized N remains stored in the soil, whereas 70% (102.9 ± 38.8 mg kg −1 ) was solubilized in tidal waters. Therefore, the N mineralization process may trigger eutrophication by increasing N inorganic bioavailability in mangrove soils receiving N-rich effluents from shrimp ponds, which in turn might increase primary producers’ activity. This approach has not been studied so far in semi-arid mangroves, where the shrimp farming activity is one of the most important economic activities.

Keywords: mangrove soils; eutrophication; farming effluents; nitrogen mineralization; mineralization; shrimp farming

Journal Title: Environmental Science and Pollution Research
Year Published: 2020

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