Non-volant mammals of the Ibura National Forest, northeastern Brazil

Less than 10% of the original Atlantic Forest cover now remains standing in the Brazilian state of Sergipe, although few scientific studies have focused on its mammalian diversity. The present study describes the diversity of non-volant mammals found in the Ibura National Forest (INF), based on live trapping, and direct and indirect observations. We sampled the IBF on six days per month between June 2012 and August 2013, using live-traps (Sherman-type) positioned in pairs (ground and understory). We equally sampled semideciduous forest and an abandoned Eucalyptusplantation with dense understory (over 30 years). We also used non-systematics methods (direct observations, vestiges, camera-trap, and opportunistic captures). We recorded 18 species, from 12 families and 7 orders considering all the applied methods. Among recorded species, Bradypus torquatusand Lontra longicaudisare considered threatened of extinction. Considering only the live-trapping (totaling 3,240 trapping nights), we captured 125 individuals (3.85% success) from four species, Marmosa demerarae(52%), Didelphis albiventris(19.2%), Cerradomys vivoi(15.2%), and M. murina(13.6%). Estimated and observed richness was the same, suggesting a satisfactory effort. Didelphis albiventrisand M. demeraraeshowed significantly higher captures in the dry seasons. Didelphis albiventrisand C.vivoishowed significantly higher captures in the substratum, and M. demeraraehigher in the understory. Cerradomysvivoishowed significantly higher captures in the Eucalyptusphytophysiognomy. Non-Metric Multidimensional Scaling and the ANOSIM showed a significant difference in the captured species among semidecidual forest and Eucalyptus. Despite the small area (144 ha), the INF still houses a relatively high mammalian diversity. Further investigations may help to understand the role of habitat reduction in the diversity and habitat partitioning among mammal species in the Atlantic Forest of Northeastern Brazil.

Asociación entre la morfología alar y el uso del hábitat en seis especies de palomas (Columbidae) neotropicales

Los factores biomecánicos, el comportamiento e historia natural de las especies pueden influenciar la forma y dimensión del ala en las aves. Por lo tanto, la morfología de las alas de cada especie podría estar adaptada al ambiente en el que habitan. En palomas (familia Columbidae) existe un gradiente de especies que tienden a volar mucho y otras que vuelan muy poco. El objetivo de esta investigación es determinar si la forma de las alas de seis especies de palomas se asocia con su capacidad de vuelo. Predecimos que las especies Patagioenas flavirostris y P. nigrirostris que tienden a volar largas distancias presentan alas relativamente largas y puntiagudas; mientras que Geotrygon montana que se desplaza principalmente caminando presenta alas relativamente anchas y redondeadas. Especies con capacidad de vuelo intermedio (Leptotila verreauxi, L. cassini y Zenaida asiatica) van a presentar alas con características intermedias. Estimamos la carga alar, proporción de la forma, conicidad alar, largo relativo y el área alar promedio para cada especie. Realizamos un análisis discriminante para determinar cuál combinación de variables explica mejor la diferencia morfológica de las alas entre las seis especies y probamos que tan robusto es este modelo mediante una prueba binomial. El modelo clasificó correctamente el 57 % de los individuos en su propia especie. Por lo tanto, encontramos que el tipo de desplazamiento predominante en cada una de las seis especies de Columbidae analizadas, se asocia con la morfología alar: alas adaptadas para vuelos en zonas abiertas en P. flavirostris y P. nigrirostris, alas adaptadas para vuelos muy maniobrables en hábitats densos en G. montana, y alas con características intermedias en L. verreauxi, L. cassini y Z. asiatica.

Biomechanics, behavior, and natural history influence wing dimension and shape. Wing design often correlates with features of the habitat in which each species is found. Doves and pigeons (Columbidae family) range from long-distance fliers (e.g., canopy and open area species) to very short-distance fliers (e.g., species adapted to dense understory forests) and such variation makes this group fit to test the association between flying habits and wing morphology. Our objective in this study is to determine whether the wing morphology (shape and dimensions) of six dove species is associated to their flying capability. We predict that the long-distance fliers Patagioenas flavirostris and P. nigrirostris will have long and sharp wings; while the very short-distance flier Geotrygon montana will have broad and rounded wings. Other species (e.g., Leptotila verreauxi, L. cassini and Zenaida asiatica) whose flying capability fits in between these two will have wings with intermediate morphological features. We measured the wing disc loading, shape ratio, the ratio of mean to maximum wing chord, relative wing length, and wing area for each species. We conducted a discriminant function analysis to compare which variables explain better the differences in wing morphology across the six species, and used a binomial test to evaluate the power of the model. The model correctly classified 57 % of individuals within their own species. The flying capability is associated with the wing morphology of the six Columbidae species; with a wing design for long-distance fliers in P. flavirostris and P. nigrirostris, wing design for maneuvering in dense habitats in G. montana, and wings with an intermediate design in L. verreauxi, L. cassini and Z. asiatica.