RESUMEN
The order Plecoptera constitutes a relatively small group of aquatic insects, encompassing 17 extant families and comprising over 4400 valid species. In Brazil, the number of valid extant species is 207, located in two families: Perlidae (149) and Gripopterygidae (58). Despite extensive research on the southeastern region of Brazil, there is a notable scarcity of comprehensive studies consolidating geographical records and species richness of Plecoptera in the state of Minas Gerais. This study seeks to increase and refine our understanding of Plecoptera within Minas Gerais, focusing on its diversity and distribution. The initial phase involved a thorough review of articles documenting Plecoptera species in the state. Subsequently, biological material from the Museum of Entomology at the Federal University of Viçosa collection was meticulously identified, and its geographical records were incorporated. Utilizing this dataset, we compiled an updated list of Plecoptera species documented in Minas Gerais. Geographical coordinates of collection points were then mapped and graphically represented to elucidate the geographic and altitudinal distribution of these species. A total of 42 Plecoptera species were identified within the state of Minas Gerais, adding many occurrence records and documenting the first record of Gripopteryx pinima for the state. Despite these advancements, knowledge gaps persist, particularly in the mesoregions of Triângulo/Alto Paranaíba, Oeste de Minas, Vale do Mucuri, and Campo das Vertentes. This endeavor serves as an initial foundation to stimulate further collections and investments in undersampled areas, fostering future monitoring and conservation initiatives for aquatic environments.
Asunto(s)
Distribución Animal , Biodiversidad , Brasil , Animales , Insectos/clasificaciónRESUMEN
Los humedales costeros son ecosistemas sensibles de alta productividad por los servicios ecosistémicos que brindan: purificación del agua, reducción de las inundaciones, protección de las costas marinas y; además, son lugares de gran diversidad biológica. El objetivo del presente estudio fue determinar la estructura comunitaria de los macroinvertebrados acuáticos en relación con las variaciones espaciales en la zona litoral del humedal costero Santa Rosa en Lima, Perú. El estudio fue realizado en seis periodos bimestrales desde agosto 2015 a junio 2016. Se establecieron ocho estaciones de muestreo: tres estaciones en la laguna principal, tres estaciones en el brazo de la laguna y dos estaciones en pozas pequeñas aisladas. Los muestreos se realizaron con una red tipo D de 250 μm de apertura de malla y tres réplicas por cada estación. Las ocho estaciones evaluadas se caracterizaron ambientalmente y se registraron los parámetros fisicoquímicos del agua para cada estación. Se recolectaron en total 28 655 macroinvertebrados distribuidos en 76 géneros. Los órdenes de mayor riqueza fueron: Diptera y Coleoptera con 24 y 19 géneros respectivamente. De estos últimos, los más abundantes fueron: Buenoa (Hemiptera: Notonectidae), Ischnura (Odonata: Coenagrionidae), Chironomus y Goeldichironomus (Diptera: Chironomidae). Estos cuatro representaron el 62.43 % de la abundancia total. En cuanto a la variación espacial, la mayor parte de las estaciones de estudio compartieron la misma estructura y composición de macroinvertebrados debido a que se conectan al cuerpo de agua principal de manera temporal o permanente, lo cual les confirió una estabilidad y resiliencia mayor. Solo las estaciones con una baja profundidad, menor extensión, escasa vegetación acuática e impacto antropogénico mayor se apartaron del conjunto general. A pesar de los variados impactos producidos por la agricultura, ganadería y la actividad urbana que sufre el humedal, se observó que las estaciones más profundas y con cobertura vegetal son más resilientes que las zonas expuestas al impacto y con menor volumen de agua y vegetación. Por otro lado, los parámetros fisicoquímicos del agua en la primera estación (E1) se diferencian al resto de la comunidad por su ausencia de impacto.
Coastal wetlands are sensitive ecosystems of high productivity due to ecological services they provide: water purification, flood reduction, and protection of marine coasts. In addition, these zones are places of great biological diversity. The objective of the present study was to determine the community structure of the aquatic macroinvertebratesin relation to the spatial variations in the littoral zone of the Santa Rosa coastal wetland in Lima, Peru. The study was carried out during six bimonthly periods from August 2015 to June 2016. We established eight sampling sites: three sites in the main lagoon, three sites in the lagoon arm and two sites in isolated small pools. We carried out the sampling with a D-frame of 250 μm mesh aperture with three replicates for each site. The eight evaluated sites were environmentally characterized, and the physicochemical parameters of the water were recorded for each sampling site. We collected 28 655 macroinvertebrates distributed in 76 genera. Diptera and Coleoptera were the orders with the greatest richness: 24 and 19 genera respectively. The most abundant genera were: Buenoa (Hemiptera: Notonectidae), Ischnura (Odonata: Coenagrionidae), Chironomus and Goeldichironomus (Diptera: Chironomidae); these four represented 62.43 % of the total abundance. In the spatial variation, most sites shared the same structure and composition of macroinvertebrates. This was expected because they are connected to the main water body temporarily or permanently, which consequently gives them greater stability and resilience. The sites with shallow depth, smaller extension, scarce aquatic vegetation and greater anthropogenic impact were the only ones with results separated from the general set. Due to the variety of environmental impacts produced by agriculture, livestock, and urban activity on the wetland, it was observed that the sites with deeper and more abundant vegetation were more resilient than the areas exposed to environmental impacts and with less water and vegetation. On the other hand, the physicochemical parameters of water at one site (E1) differentiate the community in the absence of impact.