Assessing riparian zone changes under the influence of stress factors in higher-order streams and tributaries: Implications for the management of massive dams and reservoirs.

Riparian ecosystem services along higher-order streams and connected tributaries may change over time as disturbances continuously increase, resulting in diverse deterioration of buffer zones. How habitat, plant cover, regeneration, erosion, and exotic parameters (riparian health conditions) change within huge dams and reservoirs worldwide is an unanswered question. We used multivariate statistical techniques to assess changes in riparian health parameters affected by disturbances identified in 304 transects within the Three Gorges Dam Reservoir, China, and associated tributaries. Kruskal-Wallis tests (p < 0.01) revealed high diversity in habitat, plant cover, regeneration, erosion, and overall stream condition. There was also notable variance relating to exotic and pressure parameters. The critical variables of riparian health indicators and stress factors identified by principal component analysis explained 58.40% and 74.6% (in the main waterway) and 53.23% and 71.0% (in the tributaries) of the total variance. Among riparian health indicators, one habitat parameter (riparian vegetation width) in the main waterway and one regeneration parameter (tree size classes) in tributaries contributed greatly, along with other specified parameters. Furthermore, stress factors such as farming systems, land-use types, and pollutant activity variables had the highest impact on these water bodies. In comparison, counting stress factors alone showed more deterioration in the main waterway with a range of (r = -0.527- 0.493), as determined using Pearson correlation (p < 0.05). Furthermore, after indexing, the parameters exhibited weaker coefficient values in tributaries, where exotic correlated negatively with other indexed values. These findings are relevant for managers of massive dam and reservoir ecosystems seeking to mitigate environmental and socioeconomic losses.

¿Qué factores determinan la distribución altitudinal de los peces de ríos tropicales andinos? / Which factors determine the altitudinal distribution of tropical Andean riverine fishes?

ResumenLos gradientes altitudinales representan un sistema apropiado para evaluar si existe una relación general entre los patrones de riqueza, variables ambientales, y los procesos ecológicos que determinan cuantas especies co-ocurren en un área dada.En cuanto a los peces de agua dulce en arroyos de montaña la relación prevalente es un decrecimiento monotónico en riqueza de especies con la altura. El objetivo de este estudio es evaluar cuatro hipótesis que pueden explicar la relación negativa entre la riqueza local de especies de peces y la altura, 1) hipótesis de la disminución de la energía disponible 2) hipótesis del aumento del rigor climático 3) hipótesis de la diversidad de hábitats e 4) hipótesis de la severidad de las condiciones físicas del hábitat que se presentan río arriba, relacionada a las dificultades para colonizar las partes altas de los ríos. Se recolectaron peces y macro-invertebrados en 83 sitios entre 200 a 4 000 m en dos cuencas en la Amazonía boliviana. La primera hipótesis fue evaluada mediante regresiones entre la densidad de macro-invertebrados, los peces invertívoros y la altura. Para evaluar la segunda y tercera hipótesis se realizó un análisis de regresión múltiple (GLM), entre la riqueza y varios factores locales y regionales. Se analizó también la disimilitud de los ensamblajes de peces sobre el gradiente altitudinal utilizando los índices βsim y βnes. Se encontró que la riqueza de peces disminuye de manera lineal con el aumento de la altura. La densidad de macroinvertebrados aumenta con la altura, contrariamente a la riqueza de peces invertívoros, sugiriendo que la energía no constituye un factor limitante para la colonización de las especies de peces en zonas altas. El GLM explicó un 86 % de la variación total de la riqueza, con un aporte significativo de la temperatura del agua, las pendientes máximas en el río principal y el ancho de río. El βsim presentó valores altos en niveles de altura bajos, mostrando mayor recambio de especies entre los sitios cercanos a la fuente de colonización. Inversamente, el βnes mostró valores mayores en las partes altas, correspondientes a cambios por pérdida de especies. Estos resultados sugieren que el rigor climático junto con la severidad física del hábitat crean barreras a la colonización y explican los cambios de riqueza en el gradiente altitudinal.

AbstractAltitudinal gradients represent an appropriate system to assess whether there is a relationship between richness patterns, environmental variables, and the ecological processes that determine the species type and number inhabiting a given area. In mountain streams freshwater fishes, the most prevalent relationship is a monotonic decrease in species richness with elevation. The objective of this study was to evaluate four hypotheses that can explain the negative relationship between local fish species richness and altitude, 1) the hypothesis of decreasing energy availability, 2) the hypothesis of increasing climate severity, 3) the hypothesis of habitat diversity, and 4) the hypothesis of isolation by physical severity of the environment. Fish and macro-invertebrates were collected following standard methods from 83 sites (between 200-4 000 meters) of two river basins in the Bolivian Amazon. The first hypothesis was tested by analyzing relationships between the density of macro-invertebrates, the richness of invertivorous fish species and altitude; while the second and third hypotheses were assessed by a multiple regression analysis (GLM) between fish species richness and several local and regional factors. Besides, assemblage dissimilarity between sites along the altitudinal gradient was analyzed using βsim and βness indices. Fish richness decreases linearly with increasing altitude. The density of macro-invertebrates tends to increase at higher altitudes, contrary to invertivorous fish species richness, suggesting that energy availability is not a limiting factor for fish species colonization. The GLM explained 86 % of the variation in fish species richness, with a significant contribution of water temperature, maximum slope in the river mainstem, and stream width. There is a higher species turnover (βsim) between sites at low elevation. Inversely, βness shows higher values in the upper parts, corresponding to change in assemblages mainly due to species loss. Taken together, these results suggest that climatic and physical severities create strong barriers to colonization, further explaining the decrease in fish richness along the altitudinal gradient.

Checklist of Ephemeroptera (Insecta) from São Mateus River Basin, Espírito Santo, Brazil

ABSTRACTIn order to expand the knowledge on the composition of Ephemeroptera from large rivers, we present, herein, the first survey of mayflies from the São Mateus River Basin, Espírito Santo State. Adults were collected biannually in 2012 and 2013 with the aid of Pennsylvania light trap in eleven points distributed in the main river of the river basin, São Mateus River and its two main tributaries, Cotaxé River (Braço Norte) and Cricaré River (Braço Sul). Thirty-three species were identified (22 nominal and 11 morphospecies) in 24 genera and five families. One genus and one species are reported for the first time from Brazil, three species from Southeastern Region of Brazil, and two species from the state. Five species and one genus not previously described were also found. Moreover, around 20% of the known species of mayfly registered from the state were found. This work reinforces the need to give more attention to research on large rivers due to the high potential for diversity, not only for Ephemeroptera, but also for other aquatic insects.