Ulf Mehlig scite author profile

Mangrove ecosystems are considered vulnerable to climate change as coastal development limits the ecosystem services and adaptations important to their survival. Although they appear rather simple in terms of species diversity, their ecology is complex due to interacting geophysical forces of tides, surface runoff, river and groundwater discharge, waves, and constituents of sediment, nutrients and saltwater. These interactions limit developing a comprehensive framework for science-based sustainable management practices. A suite of models have been developed independently by various academic and government institutions worldwide to understand the dynamics of mangrove ecosystems and to provide ecological forecasting capabilities under different management scenarios and natural disturbance regimes. The models have progressed from statistical tables representing growth and yield to more sophisticated models describing various system components and processes. Among these models are three individual-based models (IBMs) (FORMAN, KIWI, and MANGRO). A comparison of models' designs reveal differences in the details of process description, particularly, regarding neighbor competition among trees. Each model has thus its specific range of applications. Whereas FORMAN and KIWI are most suitable to address mangrove forest dynamics of stands, MANGRO focuses on landscape dynamics on larger spatial scale. A comparison of the models and a comparison of the models with empirical knowledge further reveal the general needs for further field and validation studies to advance our ecological understanding and management of mangrove wetlands. #

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Mangrove vegetation in Amazonia: a review of studies from the coast of Pará and Maranhão States, north Brazil

Menezes

2008

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The present study is a compilation of the literature about vegetation of mangrove forest of the north coast of Brazil. it synthesizes the knowledge about this important ecosystem and lists the currently available literature. The study focuses on the coast of Pará and Maranhão states, which are covered by a continuous belt of mangroves. The mangrove flora comprises six mangrove tree species and several associated species. Mangrove tree height and stem diameter vary as a function of abiotic local stand parameters. seasonal variation in rainfall and salinity affect the species' phenology and litter fall. local population use products derived from mangrove plants for different purposes (e.g. fuel; medicinal; rural construction). The increase in the coastal population has given rise to conflicts, which impact on mangrove forest.Key words: Amazonian mangroves, phenology, litter fall, herbivory, anthropic impacts Vegetação de manguezais na Amazônia: uma revisão dos estudos da costa dos Estados Pará e Maranhão, norte do Brasilresumo O presente estudo apresenta uma compilação da literatura sobre a vegetação dos manguezais da costa norte do Brasil, apresentando uma síntese do conhecimento e listando a literatura disponível. O estudo se concentra na costa dos estados do Pará e Maranhão que formam um cinturão contínuo de manguezais . Foram contabilizadas seis espécies arbóreas exclusivas de mangue e várias outras associadas. A altura e o diâmetro das árvores de mangue variam em função de parâmetros abióticos locais. As variações sazonais do regime de chuvas e da salinidade afetam a fenologia das espécies e a produção de serapilheira. A população costeira utiliza a flora do manguezal para diferentes fins (ex: combustível, medicinal, construção rural). O aumento da ocupação costeira inicia um processo de impacto para as florestas de mangue e a disponibilidade de seus recursos.

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Phenology of the red mangrove, Rhizophora mangle L., in the Caeté Estuary, Pará, equatorial Brazil

Mehlig

2006

Aquatic Botany

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Limitation of carbon assimilation of intertidal Zostera noltii and Z. marina by desiccation at low tide

Leuschner¹,

Landwehr²,

Mehlig

1998

Aquatic Botany

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Burrows of the Semi-Terrestrial Crab Ucides cordatus Enhance CO2 Release in a North Brazilian Mangrove Forest

et al. 2014

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Ucides cordatus is an abundant mangrove crab in Brazil constructing burrows of up to 2 m depth. Sediment around burrows may oxidize during low tides. This increase in sediment-air contact area may enhance carbon degradation processes. We hypothesized that 1) the sediment CO2 efflux rate is greater with burrows than without and 2) the reduction potential in radial profiles in the sediment surrounding the burrows decreases gradually, until approximating non-bioturbated conditions. Sampling was conducted during the North Brazilian wet season at neap tides. CO2 efflux rates of inhabited burrows and plain sediment were measured with a CO2/H2O gas analyzer connected to a respiration chamber. Sediment redox potential, pH and temperature were measured in the sediment surrounding the burrows at horizontal distances of 2, 5, 8 and 15 cm at four sediment depths (1, 10, 30 and 50 cm) and rH values were calculated. Sediment cores (50 cm length) were taken to measure the same parameters for plain sediment. CO2 efflux rates of plain sediment and individual crab burrows with entrance diameters of 7 cm were 0.7–1.3 µmol m−2 s−1 and 0.2–0.4 µmol burrows−1 s−1, respectively. CO2 released from a Rhizophora mangle dominated forest with an average of 1.7 U. cordatus burrows−1 m−2 yielded 1.0–1.7 µmol m−2 s−1, depending on the month and burrow entrance diameter. Laboratory experiments revealed that 20–60% of the CO2 released by burrows originated from crab respiration. Temporal changes in the reduction potential in the sediment surrounding the burrows did not influence the CO2 release from burrows. More oxidized conditions of plain sediment over time may explain the increase in CO2 release until the end of the wet season. CO2 released by U. cordatus and their burrows may be a significant pathway of CO2 export from mangrove sediments and should be considered in mangrove carbon budget estimates.

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The importance of conspecific facilitation during recruitment and regeneration: A case study in degraded mangroves

Vogt

Yue

Pranchai

et al. 2014

Basic and Applied Ecology

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The coastal restinga vegetation of Pará, Brazilian Amazon: a synthesis

Silva¹,

Mehlig²,

Santos³

et al. 2010

Rev. bras. Bot.

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-(The coastal restinga vegetation of Pará, Brazilian Amazon: a synthesis) The present article reviews studies (some unpublished) of the vegetation of coastal sandy soils (restinga) along the coast of Pará State, northern Brazil. A total of 411 higher plant species are reported; Fabaceae, Poaceae, Cyperaceae, Rubiaceae and Myrtaceae are the most species-rich families. Nearly half of the restinga species (48%) are terrestrial herbs; palms, trees and shrubs account for 39% of the species, the remainder being lianas and epiphytes. Species are frequently wide-spread and occur in coastal areas of Southeastern Brazil as well as at inland sites in the Amazon region. Only two species appear to be exclusively coastal; whereas other species appear to exhibit a preference for sandy soils. Plant assemblages are commonly classified by means of "formations" associated with certain habitats but current data do not allow the description of well-defined plant associations. The species composition at different sites along the Pará coast does not show any clear regional grouping pattern. Seasonal changes in the composition of restinga vegetation are most probably linked to variation in ground water level. Restinga forest is mostly low and open; among the dominant tree species are Humiria balsamifera Aubl., Pouteria ramiflora (Mart.) Radlk., Anacardium occidentale L., Byrsonima crassifolia (L.) Kunth, and Tapirira guianensis Aubl.Key words -coastal forest, dune vegetation, sandy coastal plain RESUMO -(Vegetação de restinga do Estado do Pará, Amazônia Brasileira: uma síntese). Este artigo apresenta uma revisão dos estudos (alguns não publicados) da vegetação de restinga da costa do Estado do Pará, na região norte do Brasil. Ao todo foram registradas 411 espécies de plantas vasculares, sendo as famílias Fabaceae, Poaceae, Cyperaceae, Rubiaceae e Myrtaceae as mais ricas em espécies. Dentre as espécies da restinga, 48% são ervas terrestres, 39% são palmeiras, árvores e arbustos, sendo o restante constituído por lianas e epífitas. As espécies são amplamente distribuídas ocorrendo inclusive em ambientes costeiros de outras regiões brasileiras, como a região sudeste, assim como em ambientes não costeiros da Amazônia. Apenas duas espécies parecem ser exclusivamente costeiras, já outras espécies parecem ter preferência por ambientes de solo arenoso em geral. Diferentes associações de plantas são descritas e agrupadas em diferentes tipos de "formações vegetais" associadas à certos habitats, mas os dados da literatura não permitem identificar com precisão tais associações em toda a costa. Análises estatísticas mostraram que a distribuição das espécies ao longo da costa não apresentam nenhum padrão de agrupamento. Mudanças na composição da vegetação de restinga nas estações seca e chuvosa são mais provavelmente ligadas à variação do nível do lençol freático. As florestas de restinga são, em sua maioria, abertas e de pequeno porte. Entre as espécies arbóreas dominantes estão: Humiria balsamifera Aubl., Pouteria ramiflora (Mart.) Radlk.,...

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Extended biomass allometric equations for large mangrove trees from terrestrial LiDAR data

Olagoke

Proisy

Féret³

et al. 2015

Trees

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International audienceAccurately determining biomass of large trees is crucial for reliable biomass analyses in most tropical forests, but most allometric models calibration are deficient in large trees data. This issue is a major concern for high-biomass mangrove forests, especially when their role in the ecosystem carbon storage is considered. As an alternative to the fastidious cutting and weighing measurement approach, we explored a non-destructive terrestrial laser scanning approach to estimate the aboveground biomass of large mangroves (diameters reaching up to 125 cm). Because of buttresses in large trees, we propose a pixel-based analysis of the composite 2D flattened images, obtained from the successive thin segments of stem point-cloud data to estimate wood volume. Branches were considered as successive best-fitted primitive of conical frustums. The product of wood volume and height-decreasing wood density yielded biomass estimates. This approach was tested on 36 A. germinans trees in French Guiana, considering available biomass models from the same region as references. Our biomass estimates reached ca. 90% accuracy and a correlation of 0.99 with reference biomass values. Based on the results, new tree biomass model, which had R² of 0.99 and RSE of 87.6 kg of dry matter. This terrestrial LiDAR-based approach allows the estimates of large tree biomass to be tractable, and opens new opportunities to improve biomass estimates of tall mangroves. The method could also be tested and applied to other tree species

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Ulf Mehlig

Advances and limitations of individual-based models to analyze and predict dynamics of mangrove forests: A review

Mangrove vegetation in Amazonia: a review of studies from the coast of Pará and Maranhão States, north Brazil

Phenology of the red mangrove, Rhizophora mangle L., in the Caeté Estuary, Pará, equatorial Brazil

Limitation of carbon assimilation of intertidal Zostera noltii and Z. marina by desiccation at low tide

Burrows of the Semi-Terrestrial Crab Ucides cordatus Enhance CO2 Release in a North Brazilian Mangrove Forest

The importance of conspecific facilitation during recruitment and regeneration: A case study in degraded mangroves

The coastal restinga vegetation of Pará, Brazilian Amazon: a synthesis

Extended biomass allometric equations for large mangrove trees from terrestrial LiDAR data

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