Perspectives for mass rearing of Iphiseiodes zuluagai Denmark & Muma (Acari: Phytoseiidae)

Iphiseiodes zuluagai Denmark & Muma é um importante predador de Brevipalpus phoenicis (Geijskes) em citros no Brasil. O emprego de Tyrophagus putrescentiae (Schrank) como fonte de alimento para I. zuluagai em criações de laboratório foi investigado a 25,5 ± 0,5ºC, 88 ± 7% UR e fotofase de 12h. Inicialmente os níveis de oviposição do predador alimentado com ovos, estágios pós-embrionários mortos ou estágios pós-embrionários vivos de T. putrescentiae foram avaliados durante 10 dias. A taxa diária de oviposição foi de 1,3 ovo/ fêmea quando estas foram alimentadas com ovos de T. putrecentiae; 0,7 ovo/ fêmea quando estas foram alimentadas com estágios pós-embrionários mortos e cerca de 0,2 ovo/ fêmea quando alimentadas com estágios pós-embrionários vivos. Posteriormente, elaborou-se a tabela de vida de I. zuluagai, oferecendo-se como alimento ovos de T. putrescentiae. Os estágios imaturos foram observados a cada 8h, para determinar a duração correspondente. Na fase adulta, os ácaros foram observados a cada 24h, para se determinar os parâmetros reprodutivos. A capacidade de aumento populacional (r m) foi de 0,11 fêmea/ fêmea/ dia; resultando em uma razão finita de aumento de 1,11 (l). A taxa líquida de reprodução (R0) foi de 7,1 fêmeas/geração, com um tempo de geração de 18,6 dias. Os resultados obtidos mostram que T. putrescentiae é uma fonte de alimento favorável ao desenvolvimento de I. zuluagai.Iphiseiodes zuluagai Denmark & Muma is an important predator of Brevipalpus phoenicis (Geijskes) on citrus in Brazil. The suitability of Tyrophagus putrescentiae (Schrank) as a food source of I. zuluagai in laboratory rearing was investigated at 25.5 ± 0.5ºC, 88 ± 7% RU and photophase of 12h. Initially, levels of oviposition of the predator fed on eggs were evaluated, as well as the dead or live post-embryonic stages of T. putrescentiae, in a period of 10 days. The daily oviposition rate was 1.3 egg per female when they were fed on eggs on T. putrescentiae, 0.7 egg per female when they were fed on dead post embryonic stages and about 0.3 egg per female when they were fed on live post-embryonic stages. Later, the life table of I. zuluagai was constructed, when eggs of T. putrescentiae were offered to the predators as prey. The immature stages were observed every 8h, to determine the corresponding durations. In the adult phase, the mites were observed every 24h, to determine the reproductive parameters. The intrinsic rate of natural increase (r m) was 0.11 female/ female/day; resulting in a finite rate of increase of 1.11 (l). The net reproductive rate (R0) was 7.1 females/generation, with a mean generation time (T) 18.6 days. The results show that T. putrescentiae is a favorable food source for the development of I. zuluagai

The Tree Biodiversity Network (BIOTREE-NET): prospects for biodiversity research and conservation in the Neotropics

Biodiversity research and conservation efforts in the tropics are hindered by the lack of knowledge of the assemblages found there, with many species undescribed or poorly known. Our initiative, the Tree Biodiversity Network (BIOTREE-NET), aims to address this problem by assembling georeferenced data from a wide range of sources, making these data easily accessible and easily queried, and promoting data sharing. The database (GIVD ID NA-00-002) currently comprises ca. 50,000 tree records of ca. 5,000 species (230 in the IUCN Red List) from \u3e2,000 forest plots in 11 countries. The focus is on trees because of their pivotal role in tropical forest ecosystems (which contain most of the world\u27s biodiversity) in terms of ecosystem function, carbon storage and effects on other species. BIOTREE-NET currently focuses on southern Mexico and Central America, but we aim to expand coverage to other parts of tropical America. The database is relational, comprising 12 linked data tables. We summarise its structure and contents. Key tables contain data on forest plots (including size, location and date(s) sampled), individual trees (including diameter, when available, and both recorded and standardised species name), species (including biological traits of each species) and the researchers who collected the data. Many types of queries are facilitated and species distribution modelling is enabled. Examining the data in BIOTREE-NET to date, we found an uneven distribution of data in space and across biomes, reflecting the general state of knowledge of the tropics. More than 90% of the data were collected since 1990 and plot size varies widely, but with most less than one hectare in size. A wide range of minimum sizes is used to define a \u27tree\u27. The database helps to identify gaps that need filling by further data collection and collation. The data can be publicly accessed through a web application at http://portal.biotreenet.com. Researchers are invited and encouraged to contribute data to BIOTREE-NET