Evolution of the ecological niche behind the largest disjunct freshwater fish distribution in the world.

Ecological processes that are behind distributions of species that inhabit isolated localities, complex disjunct distributions, remain poorly understood. Traditionally, vicariance and dispersion have been proposed as explanatory mechanisms that drive such distributions. However, to date, our understanding of the ecological processes driving evolution of ecological niches associated with disjunct distributions remains rudimentary. Here, we propose a framework to deconstruct drivers of such distribution using World's most widespread freshwater fish Galaxias maculatus as a model and integrating marine and freshwater environments where its life cycle may occur. Specifically, we assessed ecological and historical factors (Gondwanan vicariance, marine dispersion) and potential dispersion (niche-tracking) that explain its distribution in the Southern Hemisphere. Estimated distribution was consistent with previously reported distribution and mainly driven by temperature and topography in freshwater environments and by primary productivity and nitrate in marine environments. Niche dynamics of G. maculatus provided evidence of synergy between vicariance and marine dispersion as explanatory mechanisms of its disjunct distribution, suggesting that its ecological niche was conserved since approximately 30 Ma ago. This integrated assessment of ecological niche in marine and freshwater environments serves as a generic framework that may be applied to understand processes underpinning complex distributions of diadromous species.

Los procesos ecológicos que subyacen a las distribuciones de especies que habitan en localidades aisladas, distribuciones disjuntas complejas, siguen siendo poco conocidos. Tradicionalmente, se han propuesto la dispersión y la vicarianza como mecanismos explicativos de tales distribuciones. Sin embargo, hasta la fecha, nuestra comprensión de los procesos ecológicos que impulsan la evolución de los nichos ecológicos de distribuciones disjuntas sigue siendo rudimentaria. Aquí proponemos un marco para de­construir los factores que impulsan dicha distribución, utilizando como modelo el pez de agua dulce con distribución más extendida del mundo, Galaxias maculatus, e integrando los entornos marinos y dulceacuícolas en los que se desarrolla su ciclo vital. En concreto, evaluamos los factores ecológicos e históricos (vicarianza gondwánica, dispersión marina) que explican su distribución en el hemisferio sur. La distribución estimada coincide con la descrita anteriormente para la especie y está determinada principalmente por la temperatura y la topografía en ambientes dulceacuícolas, y la productividad primaria y el nitrato en ambientes marinos. La dinámica de nicho de G. maculatus aportó pruebas de la sinergia entre vicarianza y dispersión marina como mecanismos explicativos de su distribución disjunta, lo que sugiere que su nicho ecológico se conservó desde hace aproximadamente 30 Ma. Esta evaluación integrada del nicho ecológico en ambientes marinos y dulceacuícolas puede aplicarse para comprender los procesos que subyacen a las distribuciones complejas de especies diádromas.

Grupos Funcionales Alimentarios de Macroinvertebrados Acuáticos de Caño Baranda en la Reserva Natural El Diamante de las Aguas (Guaviare, Colombia) / Functional Feeding Groups of Aquatic Macroinvertebrates of Caño Baranda in the Diamante de las Aguas Natural Reserve (Guaviare, Colombia)

Introducción: Los macroinvertebrados son un componente biológico importante de los ecosistemas acuáticos al estar vinculados de forma activa en el flujo de materia y energía. Objetivo: Identificar los Grupos Funcionales Alimentarios (GFA) de macroinvertebrados bentónicos presentes en Caño Baranda. Materiales y métodos: Se midieron características físicas y químicas en 5 estaciones a lo largo de Caño Baranda en temporada de lluvia, así mismo se recolectaron macroinvertebrados acuáticos utilizando red Surber, red Tienneman, red de Patada y recolecta manual. Se obtuvieron muestras en cada estación para estimar la densidad de macroinvertebrados y se asignaron GFA por taxón. Resultados: Se recolectaron 251 organismos pertenecientes a 32 familias, distribuídas en 9 órdenes. Las familias más abundantes fueron Leptophlebiidae con 35% y Glossosomatidae con 12%. Se recolectaron organismos de cinco GFA donde los grupos dominantes fueron recolectores (45%) seguido por los depredadores (23%) presentando correlaciones positivas con el pH. Por su parte el grupo menos colectado fueron los trituradores (1%) donde su presencia se relacionó con el aumento de oxígeno disuelto. Conclusiones: La presencia de colectores y depredadores se relacionó con pH y temperaturas bajas; para los fragmentadores se relacionó con menores porcentajes de oxígeno disuelto; para los raspadores se relacionó con pH bajos y mayores caudales y para los trituradores se relacionó con una elevada concentración de oxígeno en el agua.

Introduction: Macroinvertebrates are an important biological component of aquatic ecosystems as they are actively linked in the flow of matter and energy. Objective: To identify the Functional Feeding Groups (FFG) of benthic macroinvertebrates present in Caño Baranda. Materials and method: Physical and chemical characteristics were measured in 5 sampling points along Caño Baranda during the rainy season, likewise aquatic macroinvertebrates were collected using Surber net, Tienneman net, Kick net and hand collection. Samples were obtained at each sampling point to estimate the density of macroinvertebrates and FFG per taxa. Results: 251 organisms belonging to 32 families were collected, sorted into 9 orders. The most abundant families were Leptophlebiidae (35%) and Glossosomatidae (12%). Collected organisms were associated to five FFG, the dominant being collectors (45%) followed by predators (23%) which presented positive correlations with pH. On the other hand, the least collected group was shredders (1%) whose presence was related to the increase in dissolved oxygen.

Top predator introduction changes the effects of spatial isolation on freshwater community structure.

Current conceptual metacommunity models predict that the consequences of local selective pressures on community structure increase with spatial isolation when species favored by local conditions also have higher dispersal rates. This appears to be the case of freshwater insects in the presence of fish. The introduction of predatory fish can produce trophic cascades in freshwater habitats because fish tend to prey upon intermediate predatory taxa, such as predatory insects, indirectly benefiting herbivores and detritivores. Similarly, spatial isolation can limit dispersal and colonization rates of predatory insects more strongly than of herbivores and detritivores, thus generating similar cascading effects. Here we tested the hypothesis that the effect of introduced predatory fish on insect community structure increases with spatial isolation by conducting a field experiment in artificial ponds that manipulated the presence/absence of fish (the redbreast tilapia) at three different distances from a source wetland. Our results showed that fish have direct negative effects on the abundance of predatory insects but probably have variable net effects on the abundance of herbivores and detritivores because the direct negative effects of predation by fish may offset indirect positive ones. Spatial isolation also resulted in indirect positive effects on the abundance of herbivores and detritivores but this effect was stronger in the absence rather than in the presence of fish so that insect communities diverged more strongly between fish and fishless ponds at higher spatial isolation. We argue that an important additional mechanism, ignored in our initial hypothesis, was that as spatial isolation increases fish predation pressure upon herbivores and detritivores increases due to the relative scarcity of predatory insects, thus dampening the positive effect that spatial isolation confers to lower trophic levels. Our results highlight the importance of considering interspecific variation in dispersal and multiple trophic levels to better understand the processes generating community and metacommunity patterns.

Food web structure shaped by habitat size and climate across a latitudinal gradient.

Habitat size and climate are known to affect the trophic structure and dynamics of communities, but their interactive effects are poorly understood. Organisms from different trophic levels vary in terms of metabolic requirements and heat dissipation. Indeed, larger species such as keystone predators require more stable climatic conditions than their prey. Likewise, habitat size disproportionally affects large-sized predators, which require larger home ranges and are thus restricted to larger habitats. Therefore, food web structure in patchy ecosystems is expected to be shaped by habitat size and climate variations. Here we investigate this prediction using natural aquatic microcosm (bromeliad phytotelmata) food webs composed of litter resources (mainly detritus), detritivores, mesopredators, and top predators (damselflies). We surveyed 240 bromeliads of varying sizes (water retention capacity) across 12 open restingas in SE Brazil spread across a wide range of tropical latitudes (-12.6° to -27.6°, ca. 2,000 km) and climates (Δ mean annual temperature = 5.3°C). We found a strong increase in predator-to-detritivore mass ratio with habitat size, which was representative of a typical inverted trophic pyramid in larger ecosystems. However, this relationship was contingent among the restingas; slopes of linear models were steeper in more stable and favorable climates, leading to inverted trophic pyramids (and top-down control) being more pronounced in environments with more favorable climatic conditions. By contrast, detritivore-resource and mesopredator-detritivore mass ratios were not affected by habitat size or climate variations across latitudes. Our results highlight that the combined effects of habitat size, climate and predator composition are pivotal to understanding the impacts of multiple environmental factors on food web structure and dynamics.

Application of rapid bioassessment protocols (RBP) for benthic macroinvertebrates in Brazil: comparison between sampling techniques and mesh sizes / Aplicação de protocolos de bioavaliação rápida para macroinvertebrados bentônicos no Brasil: comparação entre métodos de coleta e entre malhas

This study is part of the effort to test and to establish Rapid Bioassessment Protocols (RBP) using benthic macroinvertebrates as indicators of the water quality of wadeable streams in south-east Brazil. We compared the cost-effectiveness of sampling devices frequently used in RBPs, Surber and Kick-net samplers, and of three mesh sizes (125, 250 and 500 µm). A total of 126,815 benthic macroinvertebrates were collected, representing 57 families. Samples collected with Kick method had significantly higher richness and BMWP scores in relation to Surber, but no significant increase in the effort, measured by the necessary time to process samples. No significant differences were found between samplers considering the cost/effectiveness ratio. Considering mesh sizes, significantly higher abundance and time for processing samples were necessary for finer meshes, but no significant difference were found considering taxa richness or BMWP scores. As a consequence, the 500 µm mesh had better cost/effectiveness ratios. Therefore, we support the use of a kick-net with a mesh size of 500 µm for macroinvertebrate sampling in RBPs using family level in streams of similar characteristics in Brazil.

Este estudo é parte do esforço para o estabelecimento de um Protocolo de Bioavaliação Rápida (PBR) utilizando macroinvertebrados bentônicos como bioindicadores da qualidade de água de riachos no Sudeste do Brasil. Foi analisada a relação custo/eficácia de procedimentos de coleta freqüentemente utilizados em PBRs, amostradores do tipo Surber e Kick-net, e de três malhas, 125, 250 e 500 µm. Foram coletados e identificados 126.815 macroinvertebrados, representando 57 famílias. As amostras coletadas com Kick-net apresentaram número de taxa e de valores do índice BMWP significativamente maiores do que as coletadas com Surber, sem um aumento significativo no esforço amostral medido em tempo despendido para análise da amostra. Não houve diferenças significativas quanto à relação custo/eficácia entre os coletores. Quanto ao tamanho da malha, em 125 µm e 250 µm foram encontradas maiores abundância de macroinvertebrados e necessário mais tempo para processar as amostras, no entanto sem produzir diferenças significativas no número de taxa e em valores do índice BMWP. Assim, a malha de 500 µm foi considerada mais eficiente do que as malhas mais finas. Portanto, recomenda-se o uso de coletores do tipo kick usando uma malha de 500µm, para PBRs ao nível taxonômico de família em rios de características similares às deste estudo no Brasil.