In many wetlands the timing and duration of inundation determine ecological characteristics and the provision of ecosystem services; however, wetland conservation decisions often rely on static maps of wetland boundaries that do not capture their dynamic hydrological variability and connectivity. The Amazon River basin contains some of the world's most extensive wetlands, many of which are floodplains where seasonal flood pulses result in a temporally varying inundation area and hydrological connectivity with river systems. This study classified Amazon wetlands according to the timing and duration (months per year) of inundation detected by remote sensing, and also investigated the contribution of precipitation regimes in affecting wetland distribution and hydrological dynamics. Permanently inundated wetlands account for the largest area and are mainly floodplains located in the lowlands of the catchment. Seasonally inundated wetlands varied greatly in the duration of inundation over the course of the year, ranging from 1 to 9 months. Distinct seasonal timing was detected among the large wetland complexes, reflecting rainfall regimes as well as time lags for drainage and drying. For example, inundation in the extensive Llanos de Moxos region of the southern Amazon was protracted and lasted well after the rainy season, compared with the Roraima region of the northern Amazon, where inundation was shorter and tracked the rainy season. The integration of inundation dynamics into wetland classification captures regional differences in timing and duration of inundation in the major wetlands of the basin that should be considered for conservation planning and other ecological applications. This information can aid regional wetland management and planning, especially with regards to minimizing the effects of dam and waterway construction that can directly affect the natural wetland dynamics. The use of global remotely sensed inundation data makes this approach easily transferable to other large tropical wetlands.
Wetlands can increase resilience to extreme climatic events and have a key role in protection and water quality improvement in coastal ecosystems. Studies in tropical coastal wetlands at a catchment scale are scarce, and most work has been undertaken on small, temperate wetlands. In this study, we tested whether natural coastal wetlands in a tropical catchment (Tully-Murray, Queensland, Australia) could ameliorate nitrogen (N) exported to the Great Barrier Reef during a flood event. We measured denitrification rates in different types of coastal wetlands (mangroves, saltmarshes, waterbodies with macrophytes, and floodplain wetlands dominated by Melaleuca spp.) to assess their potential contribution to N losses during the 6-day duration of a flood in March 2018. Denitrification potential was variable across the landscape, and we identified "hotspots" in sub-catchments with high NO − 3 -N concentrations (0.4-0.6 mg L −1 ) and large areas of wetlands (>800 ha, >40% of the sub-catchment). These hotspots can denitrify up to 10 t of NO − 3 -N per day during a flood. We used our measured denitrification rates to provide input parameters for a model that includes the main biogeochemical processes affecting N transformations within wetlands (nitrification, denitrification, plant uptake, sedimentation, anammox, and mineralization), and accounts for transport via the duration, depth, and flow of water. Model simulations of a sub-catchment of the Tully-Murray indicate that flood inundation of large areas of natural wetlands (>40% of the sub-catchment area) could potentially remove 70% of the incoming NO − 3 -N load in the first 24 h of the flood. The management and restoration of coastal tropical wetlands could play a critical role in sustaining the health of coastal ecosystems through water quality improvement.
Resource partitioning is important for species coexistence. Species with similar ecomorphology are potential competitors, especially when phylogenetically close, due to niche conservatism. The aim of this study was to investigate the resource partitioning among populations of two species of lebiasinids (Copella nigrofasciata and Pyrrhulina aff. brevis) that co-occur in a first-order Amazonian stream, analyzing the trophic ecology, feeding strategies and ecomorphological attributes related to the use of food and space by these species. Fish were captured in May and September 2010. The stomach contents of 60 individuals were analyzed and quantified volumetrically to characterize the feeding ecology of both species. Eleven morphological attributes were measured in 20 specimens and combined in nine ecomorphological indices. Both species had an omnivorous-invertivorous diet and consumed predominantly allochthonous items. Both showed a tendency to a generalist diet, but intrapopulational variation in resource use was also detected. Overall feeding niche overlap was high, but differed between seasons: low during the rainy season and high in the dry season. In the latter, the food niche overlap was asymmetric because C. nigrofasciata consumed several prey of P. aff. brevis, which reduced its food spectrum. The ecomorphological analysis suggests that C. nigrofasciata has greater swimming capacity (greater relative length of caudal peduncle) than P. aff. brevis, which has greater maneuverability and tendency to inhabit lentic environments (greater relative depth of the body). Our results demonstrate that these species have similar trophic ecology and suggest a spatial segregation, given by morphological differences related to locomotion and occupation of habitat, favoring their coexistence. KEYWORDS: Feeding, coexistence, spatial segregation, Copella nigrofasciata, Pyrrhulina aff. brevis. Partilha de recursos e variação ecomorfológica em duas espécies sintópicas de Lebiasinidae (Characiformes) em um igarapé amazônico RESUMOA partilha de recursos é importante para a coexistência das espécies. Aquelas com ecomorfologia similar tem alto potencial competitivo, especialmente quando próximas filogeneticamente, devido ao conservantismo do nicho. O objetivo deste estudo foi investigar a partilha de recursos entre populações de duas espécies de lebiasinídeos (Copella nigrofasciata e Pyrrhulina aff. brevis) que coocorrem em um igarapé amazônico de primeira ordem, analisando a ecologia trófica, estratégias alimentares e atributos ecomorfológicos relacionados ao uso de recursos alimentares e espaciais. Os peixes foram capturados em maio e setembro/2010. O conteúdo estomacal de 60 indivíduos foi analisado e os itens quantificados volumetricamente para caracterizar a ecologia trófica das espécies. Foram medidos 11 atributos morfológicos, combinados em nove índices ecomorfológicos. As espécies apresentaram dieta onívora-invertívora com predomínio de itens alóctones, tendência ao generalismo e variação intrapopulacional no uso de...
We report the consumption of scales and other food resources by the facultative lepidophage Roeboides affinis in the upper Tocantins River where it was impounded by the Serra da Mesa Hydroelectric Dam. We compared the diet among size classes, between dry and wet seasons, and between sites with distinct water flow characteristics (lotic vs. lentic) related to the distance from the dam and phase of reservoir development. As transparency and fish abundance increased after impoundment, we expected a higher consumption of scales in lentic sites. Likewise, habitat contraction, higher transparency and decrease in terrestrial resources availability, would promote a higher consumption of scales. Scales were consumed by 92% of individuals and represented 26% of the total volume of resources ingested by R. affinis. Diet composition varied significantly among size classes, with larger individuals consuming more scales and larger items, especially odonatans and ephemeropterans. Scale consumption was not significantly different between dry and wet seasons. Roeboides affinis incorporated some food items into the diet as a response to the impoundment, like other species. Scale consumption was higher in lotic sites, refuting our initial hypothesis, what suggests that the lepidophagous habit is related the rheophilic nature of R. affinis.Caracterizamos o consumo de escamas e outros recursos alimentares por Roeboides affinis, um lepidófago facultativo, no alto rio Tocantins, na região represada pela Usina Hidrelétrica de Serra da Mesa. A dieta foi avaliada em relação a classes de tamanho, estações chuvosa e seca, e entre locais com características distintas de fluxo d'água (lótico vs. lêntico) relacionadas com a distância da barragem e fase de desenvolvimento do reservatório. Com o aumento da abundância de peixes e da transparência da água após o represamento, esperamos um maior consumo de escamas nos locais lênticos. Da mesma forma, na época seca, o habitat menor e mais transparente, além da redução da disponibilidade de itens terrestres, levaria a um maior consumo de escamas. Escamas foram consumidas por 92% dos indivíduos e representaram 26% do volume total de itens ingeridos por R. affinis. A composição da dieta variou significativamente entre classes de tamanho, com indivíduos maiores consumindo mais escamas e itens de maior porte, especialmente odonatas e efemerópteros. Não houve diferença no consumo de escamas entre as estações seca e chuvosa. Roeboides affinis incorporou itens à sua dieta como resposta ao represamento, a exemplo de outras espécies na bacia do alto rio Tocantins. O consumo de escamas foi maior nas localidades lóticas, contrariando a hipótese inicial e sugerindo que o hábito lepidofágico está ligado à natureza reofílica de R. affinis.
Conservation biology has historically been based on principles to protect terrestrial ecosystems, with marine and freshwater ecosystems left behind. As a result, often, protected areas are defined with bases in forest cover and terrestrial characteristics overseeing important components of connectivity of riverine landscapes, such as the connectivity between rivers, lakes, and streams. It is important to emphasize that forest protection is extremely important, but that alone cannot safeguard the protection of freshwater ecosystems. Therefore, our discussion should lead, not to the disregard of terrestrial efforts but to the complementation of existing efforts for forest protection with the addition of areas that can also protect freshwater ecosystems. Fluvial ecosystems are hierarchical and nested systems, with multidimensional connectivity including longitudinal (upstream-downstream), lateral (floodplains and lakes), temporal (seasons) and vertical (groundwaters) connections. Systematic Conservation Planning (SCP) is the most well accepted and used method for designing conservation plans based on cost-effective scenarios that include ecological and socio-economic values resulting in thematic maps of priority areas for conservation. Recently, methods to consider the connectivity of freshwater ecosystems were incorporated into spatial prioritization tools. Maps produced using spatial prioritization tools can help decision making on species management and conservation actions, such as plans for species’ impact reduction (PRIM) and action plans for threatened species (PAN). PRIM and PAN use information about species ecology to focus conservation actions onto target species. These conservation action plans must be viable not only ecologically but also economically. In this context, using SCP to guide designs of PRIM and PAN can help stakeholders to achieve better conservation actions in Brazil. Thus, the SCP can improve the conservation and management of freshwater ecosystems, through the integration of science, society and stakeholder.
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