Microplastics in marine sediments and rabbitfish (Siganus fuscescens) from selected coastal areas of Negros Oriental, Philippines.

The Philippines is currently ranked as the third top producer of plastic wastes, yet little research has been conducted on marine plastic pollution in this fishery-dependent, developing country. This study is the first in the nation to quantify and characterize microplastics ingested by a commercially important fish, the rabbitfish (Siganus fuscescens), in the coastal areas of Negros Oriental, central Philippines. Across all sites, the diversity of microplastic polymer types was highest in the guts of S. fuscescens from Dumaguete, a densely populated city. Microplastic particles extracted from subtidal sediment samples from Silliman Beach in Dumaguete were dominated by semi-synthetic microfibers (rayon), probably from clothing and textiles. However, these microplastic types were absent in the guts of fish, likely due to the different location and character of their feeding habitats. This study confirms for the first time the presence and diversity of microplastics in an edible finfish in the Philippines.

Abundance and microhabitat use by the frog Platymantis hazelae (Anura: Ceratobatrachidae)

Introduction: Forest frogs that undergo direct development (no tadpole stage) rely heavily on moist microhabitats for their survival. Objective: To describe the abundance and microhabitat use and some aspects of the breeding behaviour of the threatened forest frog Platymantis hazelae at Twin Lakes Balinsasayao Natural Park, Negros Island, Philippines. Methods: From September 2016 to February 2017, we surveyed Platymantis hazelae using 27 (400 m2) plots in Twin Lakes Balinsasayao-Danao Natural Park in Negros Oriental, Philippines. Results: After a total of six months survey P. hazelae was found abundant in the montane zone with mean density ranging from 30.56±6.94 to 86.11±15.65 ind./ha. Fourteen environmental variables were measured and subjected to multivariate principal component analysis (PCA). PCA revealed that rainfall, altitude, relative humidity, and air temperature influenced the density of P. hazelae. Screwpines (Pandanus) leaf axils and leaves (51.56 %) and palm leaves (14 %) were the preferred microhabitats for the species. Details of physical characters of embryos and froglets are also described. Conclusions: P. hazelae was found abundant in higher elevations (sub-montane and montane zones) where ambient temperature was generally lower, higher rainfall and relative humidity and microhabitats (e.g. screwpines) remain intact and abundant.

Introducción: las ranas de bosque que se desarrollan directamente (sin etapa de renacuajo) dependen en gran medida de los microhábitats húmedos para sobrevivir. Objetivo: describir la abundancia y el uso de microhábitats y algunos aspectos del comportamiento reproductivo ante la amenaza de la rana del bosque Platymantis hazelae en el Parque Natural Twin Lakes Balinsasayao, Isla Negros, Filipinas. Métodos: de septiembre 2016 a febrero 2017, examinamos Platymantis hazelae utilizando 27 parcelas (400 m2) en el Parque Natural Twin Lakes Balinsasayao-Danao en Negros Oriental, Filipinas. Resultados: Después de un muestreo total de seis meses, se encontró que P. hazelae era abundante en la zona montañosa, con una densidad media que oscila entre 30.56±6.94 y 86.11±15.65 ind./ha. Catorce variables ambientales se midieron y se sometieron a un análisis de componentes principales multivariantes (PCA). El PCA reveló que la lluvia, la altitud, la humedad relativa y la temperatura del aire influyeron en la densidad de P. hazelae. Los microhábitats preferidos para la especie fueron las axilas foliares y hojas (51.56 %) y las hojas de palma (14 %). También se describen los detalles de los caracteres físicos de embriones y ranas. Conclusiones: P. hazelae se encontró abundante en elevaciones más altas (zonas sub-montanas y montanas) donde la temperatura ambiente fue generalmente más baja, las precipitaciones y la humedad relativa más altas y los microhábitats (por ejemplo, screwpines) permanecen intactos y abundantes.