The influence of castanhão reservoir on nutrient and suspended matter transport during rainy season in the ephemeral Jaguaribe river (CE, Brazil)

Molisani, Maurício Mussi; Becker, Helena; Barroso, Hileia Santos; Hijo, Carlos Alberto Grossi; Monte, Thiago Maia do; Vasconcellos, George Harrison; Lacerda, Luiz Drude de

doi:10.1590/s1519-69842013000100013

Cited by 27 publications

(14 citation statements)

References 19 publications

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“…By comparing the N emission from the cage aquaculture during the producing cycle (12 t) and the fluvial flow from the main contributor Jaguaribe River during the same period (733 t per 6 months) (Molisani et al 2013), we observed that the cage farm contributed with 2 % of 7-7.7 N while river loads and upstream nitrogen sources represented most of N to the reservoir. However, river and aquaculture N inflow (745 t) and regulated dam outflow (85 t) budget showed that the reservoir retained 660 t or 88 % N showing the importance of management of both in-lake (cage aquaculture) and land-based (agriculture, urbanization, industry, cattle) activities for the Castanhão reservoir (Fig.…”

Section: Discussionmentioning

confidence: 97%

“…Data from Guo and Li (2003) indicate that effluents from cage aquaculture may cause negative effects in areas from the cage to a distance of 20 m or more outwards. During the sampling period, the water inflow into the Castanhão reservoir varied from 13 to 131 m 3 /s while the outflow over the dam was artificially controlled between 5 and 11 m 3 /s (Molisani et al 2013). Considering only the inflow and outflow rates and reservoir volume, an oversimplified water residence time on the reservoir was 4000 days.…”

Section: Discussionmentioning

confidence: 99%

“…Nutrient loads from the main tributary (the Jaguaribe river) and controlled dam outflow were also measured during sampling period to determine the relative importance of emission of nutrients from the cage aquaculture compared to the wholereservoir nutrient budget. Reservoir loads were obtained from nutrient concentration and water discharge measurements (Molisani et al 2013).…”

Section: Nutrient Mass Budgetmentioning

confidence: 99%

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Relative effects of nutrient emission from intensive cage aquaculture on the semiarid reservoir water quality

Molisani

Monte

Vasconcellos

et al. 2015

Environ Monit Assess

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The effects of cage aquaculture on freshwater ecosystems are determined by multiple farming and environmental variables, and thus, the assessment of a wide range of abiotic and biotic variables enables better understanding of the impacts generated by this nutrient source. This study was carried out at Castanhão reservoir located in the State of Ceará, which is the largest Brazilian producer of Nile tilapia in cage systems, wherein about 8000 reservoirs provide a vast area to expand not only this important socio-economic but also pollution-prone activity. Nutrient mass budget, water quality monitoring, hydrodynamic characterization, and elemental/stable isotopic composition of end-member products were measured in cage aquaculture and other reservoir areas in order to determine the relative effects on reservoir conditions. Nutrient budgets showed that 34% of the artificial feed was lost to the water column but water quality monitoring and isotopic composition analysis suggested that the cages were not extensively impacting the water quality probably because of the physiographic and hydrodynamic features of the cage site.

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Section: Discussionmentioning

confidence: 97%

Section: Discussionmentioning

confidence: 99%

Section: Nutrient Mass Budgetmentioning

confidence: 99%

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Relative effects of nutrient emission from intensive cage aquaculture on the semiarid reservoir water quality

Molisani

Monte

Vasconcellos

et al. 2015

Environ Monit Assess

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“…Natural sources include atmospheric deposition and the denudation of soils; whereas major anthropogenic sources are irrigated agriculture, husbandry, fish aquaculture and urban runoff and solid waste disposal. Of those, only aquaculture released nutrient directly to the reservoir water column (Molisani et al 2013, Avelino 2015, Santos et al 2016. The comparison between estimates of the natural and anthropogenic nutrient loads to the watershed of the Castanhão reservoir indicates that anthropogenic sources correspond to almost all emissions of nitrogen and phosphorus to the reservoir (Table I).…”

Section: Nutrient Emissions To the Castanhão Reservoirmentioning

confidence: 99%

Limnology of the largest multi-use artificial reservoir in NE Brazil: The Castanhão Reservoir, Ceará State

Lacerda

Santos

Marins

et al. 2018

An. Acad. Bras. Ciênc.

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This work reviews the limnology of the largest multi-use reservoir in NE Brazil, the Castanhão Reservoir in Ceará State, during 5 years of an extended drought when the reservoir's volume decreased from 88% to about 30%. Major physical and chemical parameters of the water column, phytoplankton community, trophic state and sediment geochemistry were monitored, as well as the impact from extensive aquaculture. Water quality of the full reservoir was maintained due to hydrodynamics, which transport nutrients to the hypolimnion of a stratified water column, rendering an oligotrophic state to the reservoir, notwithstanding the large nutrient inputs from aquaculture and irrigated agriculture. However, with the extension of the drought period, the reservoir volume reduced, decreasing water depth leading to breaking of the thermocline due to wind forcing, and mixing the entire water column. This increased turbidity, nutrient availability and primary productivity, also changed phytoplankton functional groups. As a result, at the end of the monitoring period, when the reservoir attained its lowest volume, its trophic state became eutrophic. Under a scenario of climate change, where annual precipitation is decreasing, human uses of reservoirs in the semiarid should be very restricted to maintain water quality proper for human use.

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“…Previous observation on nutrient balance in the Castanhão reservoir showed a net retention of over 97% of the total fluvial input of N and P within the reservoir resulting in nutrient accumulation mostly in the hypolimnion (Molisani et al, 2013). With decreasing water depth, wind action can break the stability of the water column, thus favoring water column mixing processes and the resuspension of bottom material and the consequent increase in nutrient concentrations.…”

Section: Discussionmentioning

confidence: 96%

Hydrochemistry and trophic state change in a large reservoir in the Brazilian northeast region under intense drought conditions

et al. 2016

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The influence of castanhão reservoir on nutrient and suspended matter transport during rainy season in the ephemeral Jaguaribe river (CE, Brazil)

Cited by 27 publications

References 19 publications

Relative effects of nutrient emission from intensive cage aquaculture on the semiarid reservoir water quality

Relative effects of nutrient emission from intensive cage aquaculture on the semiarid reservoir water quality

Limnology of the largest multi-use artificial reservoir in NE Brazil: The Castanhão Reservoir, Ceará State

Hydrochemistry and trophic state change in a large reservoir in the Brazilian northeast region under intense drought conditions

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