Mario Duarte Pinto Godoy scite author profile

Mangroves function as a natural coastline protection for erosion and inundation, providing important environmental services. Due to their geographical distribution at the continent-ocean interface, the mangrove habitat may suffer heavy impacts from global climate change, maximized by local human activities occurring in a given coastal region. This review analyzed the literature published over the last 25 years, on the documented response of mangroves to environmental change caused by global climate change, taking into consideration 104 case studies and predictive modeling, worldwide. Most studies appeared after the year 2000, as a response to the 1997 IPCC report. Although many reports showed that the world's mangrove area is decreasing due to direct anthropogenic pressure, several others, however, showed that in a variety of habitats mangroves are expanding as a response to global climate change. Worldwide, pole ward migration is extending the latitudinal limits of mangroves due to warmer winters and decreasing the frequency of extreme low temperatures, whereas in low-lying coastal plains, mangroves are migrating landward due to sea level rise, as demonstrated for the NE Brazilian coast. Taking into consideration climate change alone, mangroves in most areas will display a positive response. In some areas however, such as low-lying oceanic islands, such as in the Pacific and the Caribbean, and constrained coastlines, such as the SE Brazilian coast, mangroves will most probably not survive.

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20-Years Cumulative Impact From Shrimp Farming on Mangroves of Northeast Brazil

Lacerda

Ward

Godoy

et al. 2021

Front. For. Glob. Change

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Brazilian mangroves cover about 11,100 km2 and provide a wide range of ecosystem services. Despite their importance, they are one of the most impacted ecosystems because of combined influences of climate change, pollution, and direct conversion and loss. A major driver of environmental impacts is shrimp farming and this is particularly acute in the semi-arid northeast of Brazil, where mangroves are constrained in a narrow band along ephemeral estuaries that are often impacted by multi-year droughts. Recent changes to Brazilian law, in particular the Forest Code, have weakened protection for mangroves and associated “apicum” (salt pan) ecosystems. In NE Brazil, most shrimp ponds are converted from mangrove-adjacent “apicuns” rather than the mangroves themselves with periodic hydrological connectivity through dammed channels, allowing the flushing of effluents. As a result, the main impacts on mangroves are typically indirect, because of pollution inputs from shrimp pond effluents and associated loss of ecosystem services including reductions in primary productivity, carbon storage capacity, resilience to other environmental stressors, their efficiency as estuarine filters, and biodiversity and abundance of subsistence use of marine species. Soil damage and infrastructure remaining after shrimp pond deactivation impairs mangrove recovery. This extends the duration of the damage and allows the occupation of degraded areas by other activities that can permanently impair ecosystem function. In this review, we address several aspects of the shrimp culture boom in NE Brazilian, their features and consequences, and the future of mangroves in the region considering climate change and rising poverty. Our conclusions on the practices and outcomes of shrimp farming in mangroves are likely to apply to areas with similar environmental settings, e.g., semiarid regions worldwide, and particularly in the Latin America and Caribbean region, and our findings can be taken into account to improve conservation and management of these forests at the least to a regional scale.

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Mangrove Response to Land Use Change in Estuaries along the Semiarid Coast of Ceará, Brazil

Godoy

Meireles

Lacerda

2018

Journal of Coastal Research

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Mangroves cover an estimated area of approximately 12 to 20 million ha worldwide and serve as protection for the coastline from erosion and flooding. Nearly 70 mangrove species are considered endangered and could disappear in the next decade, which would have devastating economic and environmental consequences for coastal communities because of their ecological and economic importance. The annual rate of disappearance of coastal ecosystems is four times greater than the rate of the disappearance of rain forests. Mangroves suffer great pressure from the rapid conversion of forests into agricultural and urban areas, and, in these scenarios, climate change promotes specific pressures on mangroves and may increase the effects of anthropogenic activities. The focus of this study was to map the changes in mangrove areas in six river estuaries in Ceara ´, northeastern Brazil, between the years 1992 and 2011 and identify the main drivers of these changes. The results showed an increase in mangrove areas of five estuaries, while one estuary showed a decrease in mangrove area. Changes in river output capacity and sediment accumulation in the estuaries were associated with dam construction in the watersheds and can be responsible for new upstream mangrove areas in newly formed islands and along river banks. Abandoned saltpans also contributed to expansion of the mangrove areas. Deforestation for the construction of shrimp farms was the main cause of decreases in mangrove area, especially in the Pirangi estuary.

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Mercury Emission Factors from Intensive Shrimp Aquaculture and Their Relative Importance to the Jaguaribe River Estuary, NE Brazil

Lacerda

Soares

Costa

et al. 2011

Bull Environ Contam Toxicol

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This study estimated Hg emission factors (EFs) and total Hg loading to the Jaguaribe Estuary, NE Brazil, from intensive shrimp farming, and compares this with other local anthropogenic activities. The EF reached 83.5 mg ha(-1) cycle(-1) (about 175 mg ha(-1) year(-1)), resulting in an annual Hg load to the estuary of 0.35 kg. The calculated EF is comparable to Hg EFs from urban wastewaters (200 mg ha(-1)) and solid waste disposal (400 mg ha(-1) year(-1)) from cities located in the estuary's basin. However, due to the smaller area of aquaculture (2,010 ha), total annual loads are much lower than from these other sources (75 and 150 kg year(-1), respectively). Since shrimp farming effluents are released directly into the estuary, the estimated high EF raises environmental concerns with this expanding industry, suggesting the inclusion of this element in ongoing environmental monitoring programs.

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River-Island Morphological Response to Basin Land-Use Change within the Jaguaribe River Estuary, NE Brazil

Godoy

Lacerda

2014

Journal of Coastal Research

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