This paper announces a database on the taxonomy and distribution of mites of the family Phytoseiidae Berlese, which is available online at http://www.lea.esalq.usp.br/phytoseiidae/. Synthesis of species diversity per genus, subfamily and country are given. Information about use of the database is provided.
The red palm mite Raoiella indica Hirst (Tenuipalpidae) was first reported in the New World in 2004, dispersing quickly and widely while adopting new plant species as hosts. Since then, it has caused severe damage in this region, especially to coconut (Cocos nucifera L.). It was first found in Brazil in 2009, in the northern Amazonian state of Roraima. In the present study, native and introduced plants were sampled between March 2010 and February 2011 in sites of the 15 Roraima municipalities, to estimate its distribution and the associated mite fauna. In addition, monthly samples were taken from a coconut plantation in Mucajaí throughout the same period, for an initial appraisal of the levels R. indica could reach. It was found in 10 municipalities, on 19 plant species of four families. Six species are reported for the first time as hosts. Among the associated predators, 89.1% were Phytoseiidae, most commonly Amblyseius largoensis (Muma), Iphiseiodes zuluagai Denmark & Muma and Euseius concordis (Chant). The highest densities of R. indica, 1.5 and 0.35 mites/cm 2 of leaflet (approx total of 331 and 77 mites/leaflet), were reached respectively in March 2010 and February 2011. The highest density of phytoseiids on coconut (0.009 mites/cm 2 or about 2 mites/leaflet) was reached in November 2010. The average densities of R. indica recorded for Roraima were comparable to those reported for countries in which the mite is reportedly economically damaging. The dispersal of R. indica through the Amazon forest may result in damage to cultivated and native palms, and plants of other families, if the projected increase in both the frequency and the severity of drought events occurs. Parts of the Amazon have undergone periods of low rainfall, a condition that appears to favour the biology of this mite. Its eventual arrival to northeastern Brazil may result in heavy economic and ecological losses.
Surveys were conduced in 16 sites in the State of São Paulo to evaluate the phytoseid mite fauna on some of the most common grass species in that State: Brachiaria decumbens Stapf., Brachiaria brizantha (Hochst. ex A. Rich.) Stapf, Brachiaria ruziziensis R. Germ & C.V. Evrard, Melinis minutiflora Beauv., Panicum maximum Jacq. and Pennisetum purpureum Schumach. Twenty known species and one new species (Proprioseiopsis biologicus Lofego, Demite & Moraes sp. nov.) were found. Two species are reported for the first time in the American continent: Neoseiulus benjamini Schicha and Typhlodromus (Anthoseius) neobakeri Prasad . Seven of the species collected have been reported in Brazil from different crops. The largest number of specimens and of species of phytoseiids was found on M. minutiflora. The results of this study indicate that grasses may play a role in agroecosystems and pasture lands, serving as reservoirs of phytoseiids that prey upon mite pests.
Until recently, species of the families Ascidae Voigts Oudemans, Blattisociidae Garman and Melicharidae Hirschmann were considered to belong to a single family, Ascidae, based on their similarity in external morphology. Databases on the distribution and biology of species in those families have been collected are now freely available. This information allows the first zoogeographic analysis of these groups. Almost 2200 records obtained from about 820 publications were entered into the databases, which are periodically updated. The countries with the highest known diversity of mites of these groups are: Ascidae-Russia (56), United States of America (42), China (37) and Poland (36); Blattisociidae-China (47), United States of America (41), Ecuador (38), India (33) and Poland (32); Melicharidae-United States of America (46), Brazil (23), Ecuador (20) and Poland and Germany (15). No species of these families have been reported from about 44% of the countries, most probably because of inadequate sampling effort. Comparing the species composition of the different regions, Jaccard similarity indexes were low, being higher between the Palaearctic and Saharo-Arabian regions for the ascids (0.15), between the same regions for the blattisociids (0.19) and between the Neotropical and Panamanian regions for the melicharids (0.18). These data are compatible with the results of parsimony analyses of endemicity (PAE), in which those pairs of regions constituted distinct clades. The analyses suggest that Ascidae probably originated in the Palaearctic region, whereas Blattisociidae and Melicharidae probably originated somewhere in the Neotropical or Panamanian regions.
The mite community has been surveyed in Seasonal Semideciduous Forest with three types of surrounding agricultural environments to test the hypothesis that abundance and richness of mites in forest fragments are influenced by the type of agricultural environment. The survey has been carried out in six fragments, divided into sets of two fragments, each one neighboring one sort of agricultural environment: sugarcane crop (FS), orange crop (FO) and pasture (FP). In each fragment, ten individuals of Actinostemon communis (Euphorbiaceae) were selected, five at the edge and five within each fragment. Iphiseiodes zuluagai, often registered in orange crops, was more abundant in the fragments neighboring such crop, as well as some species of Tarsonemidae. In this study, the Phytoseiidae were more abundant in the fragments neighboring pasture, while sugarcane crops probably favored occurrence of phytophagous mites in the neighboring fragments. Tetranychidae were less abundant in FO, which can be explained by periodical use of pesticides in the orange crops. Forest fragments are important for colonies of predators in the neighboring crops, mainly for annual crops such as sugarcane, where the close perennial environment is very important for colonization of the crop. Maintenance of those areas, besides favoring preservation of wild species of mite, is very important to increase diversity of the neighboring agricultural ecosystems.Keywords: agroecosystems, native areas, edge effect, forest fragments. Influência do ambiente agrícola vizinho na comunidade de ácaros plantícolas em fragmentos florestais ResumoFoi estudada a comunidade de ácaros em fragmentos de mata estacional semidecidual com três tipos de ambientes agrícolas circunvizinhos para testar a hipótese de que a abundância e a riqueza de ácaros em fragmentos florestais são influenciadas pelo tipo de ambiente agrícola. O estudo foi conduzido em seis fragmentos, divididos em três conjuntos de dois fragmentos, sendo cada conjunto vizinho de um determinado tipo de ambiente agrícola: canavial (FS), laranjal (FO) e pastagem (FP). Em cada fragmento foram selecionados e marcados dez indivíduos de Actinostemon communis (Euphorbiaceae), cinco na borda e cinco no interior do fragmento. Iphiseiodes zuluagai, registrado frequentemente em laranjais, foi mais abundante nos fragmentos vizinhos a essa cultura, bem como algumas espécies de Tarsonemidae. Neste estudo os fitoseídeos foram mais abundantes nos fragmentos vizinhos de áreas de pastagens, enquanto os cultivos de cana-de-açúcar provavelmente favoreceram a ocorrência de fitófagos nos fragmentos adjacentes. Os tetraniquídeos foram menos abundantes em FO, o que pode ser explicado pela aplicação periódica de pesticidas nos laranjais. Fragmentos florestais são importantes para a colonização de predadores nas culturas vizinhas, principalmente em culturas anuais, como a cana-de-açúcar, nas quais o ambiente perene próximo é muito importante para a colonização do cultivo. A conservação dessas áreas, além de favorecer a manuten...
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