Long‐term trophic state responses of a large tropical coastal lagoon to land use changes and nutrient transport

Campaneli, Leonardo Bernardo; Rezende, Carlos Eduardo de; Lacerda, Luiz Drude de; Almeida, Marcelo Gomes de; Molisani, Maurício Mussi

doi:10.1002/eco.2343

Cited by 3 publications

(1 citation statement)

References 69 publications

(118 reference statements)

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“…Past research has demonstrated that there can be a strong association between water quality and land use (de Mello et al, 2018; Zhang et al, 2020), including grassland, forest, bare lands, agricultural, industrial and urban land cover types (Ding et al, 2016; Zhang et al, 2020). The agricultural, industrial and urban land use strongly influences nutrient concentrations (N and P) and organic pollution in rivers (Campaneli et al, 2021). The excess application of inorganic fertilizers in agricultural areas along with soil erosion has resulted in the high loading of nutrients into water bodies (Bu et al, 2014; Li et al, 2009).…”

Section: Introductionmentioning

confidence: 99%

Impacts of land use and landscape pattern on water quality at multiple spatial scales in a subtropical large river

et al. 2022

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The coupling between land use/landscape pattern and water quality in river systems varies across different spatial and temporal scales. It is important to understand the association between water quality and land use/landscape pattern across different spatial and temporal scales for the protection of water resources. Here, we measured seasonal water quality at 12 sub‐basins in the upper reaches of the Han River (UHR) between 2010 and 2018. We conducted factor analysis and redundancy analysis to determine the links between land use and water quality at multiple spatial scales and to identify the main factors influencing water quality. We found that the concentration of nutrients, including total nitrogen, total phosphorus, nitrate‐N and ammonium‐N, was higher during the wet season than the dry season. Total nitrogen was the main driver of nutrient pollution in the UHR, whereas total phosphorus was identified as another potential nutrient pollutant. We also found that water quality parameters were more strongly related to land use types during the wet season than the dry season. Croplands and urban lands increased phosphorus concentrations of river water, whereas forest and grasslands decreased the nitrogen concentrations of river water at the sub‐basin scale. Land use at the riparian zone scales better explained variations in water quality than land use at sub‐basin scales. The explained variations in landscape metrics were generally higher during the dry season than the wet season. The largest patch index and Shannon's diversity index were the main predictors of river water quality in the UHR.

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Section: Introductionmentioning

confidence: 99%

Impacts of land use and landscape pattern on water quality at multiple spatial scales in a subtropical large river

et al. 2022

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Transboundary Nile basin dynamics: Land use change, drivers, and hydrological impacts under socioeconomic pathways

Omer

Yuan

Gemitzi

2023

Ecological Indicators

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Hydro-morphometric characterization and management of a large subtropical coastal wetland (Norte Fluminense, Brazil)

Guimarães

Debiase

Kjerfve

et al. 2023

Preprint

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Large coastal wetlands usually consist of diverse geomorphological and hydrological units across continental, coastal, and marine zones. Management focuses on controlling the hydraulic systems. This study proposes hydro-morphometric characterization and management strategies for large complex coastal wetlands based on the coastal plain of the northern region of the state of Rio de Janeiro, Brazil. Our classification high-lights the complexity of these systems, which have been described as inland, marine-coastal and/or man-made wetlands. The delimitation was characterized by the flat to low relief, which comprises 52% of the area studied. The maintenance of the hydro-morphometric features of a wetland system and the operation of the seaward floodgates are fundamental strategies for the management of the system. In addition, a national park plays a key role in implementing management strategies and protecting not only macrohabitat, but also the water connectivity along the margins of the wetland. The occasional opening of the sandbar, connecting coastal lagoons to the coastal ocean, can disrupt water connectivity, and demands the implementation of effective management protocols.

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Long‐term trophic state responses of a large tropical coastal lagoon to land use changes and nutrient transport

Cited by 3 publications

References 69 publications

Impacts of land use and landscape pattern on water quality at multiple spatial scales in a subtropical large river

Impacts of land use and landscape pattern on water quality at multiple spatial scales in a subtropical large river

Transboundary Nile basin dynamics: Land use change, drivers, and hydrological impacts under socioeconomic pathways

Hydro-morphometric characterization and management of a large subtropical coastal wetland (Norte Fluminense, Brazil)

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