ABSTRACT
Chalcididae is a family of parasitoids with wide distribution and great richness, with almost 1,500 described species. Its diversity might be greater than that known today, mainly due to the few existing studies and its taxonomic complexity. Studies in semiarid regions are scarce and necessary to contribute to the biogeographic knowledge of the neotropical fauna. Therefore, the objective of this work was to record Chalcididae species that occur in the municipality of Barra do Choça, in the Semiarid region of the state of Bahia, Brazil. Five Malaise traps were distributed in two areas with native vegetation and an area with eucalyptus plantation, which were monitored monthly for two consecutive years. The insects were sorted and specimens of the family Chalcididae were identified at the species level, when possible. A total of 182 specimens from five genera (Aspirrhina Kyrbi, 1883; Brachymeria Westwood, 1829; Conura Spinola, 1837; Dirhinus Dalman, 1818, and Haltichella Spinola, 1811), and 18 species were identified and 32 were morphotyped. The genus Conura was the most abundant and the most diverse, with 12 species identified and 30 potential new species. The native vegetation presented higher abundance and higher taxonomic wealth, mainly in the area at initial stage of succession (capoeira). The eucalyptus area presented low diversity, with predominance of Brachymeria species. The species C. nigricornis presented the highest relative frequency. This study constitutes the first list of Chalcididae species in the Semiarid region of Brazil. The sampling carried out in the state Bahia showed an important diversity of Chalcididae species when compared to other regions of Brazil.
Keywords:
Chalcidoidea; Conura nigricornis; Parasitoid
RESUMO
Os Chalcididae são parasitoides com distribuição ampla e grande riqueza com quase 1.500 espécies descritas. Apresentam potencial de diversidade maior, principalmente em função dos poucos estudos e da complexidade taxonômica associada. Estudos em regiões semiáridas são escassos e necessários para contribuir com conhecimento biogeográfico da fauna Neotropical, portanto o objetivo desse trabalho foi registrar as espécies de Chalcididae que ocorrem no município de Barra do Choça, Bahia, inserido no no semiárido da Bahia. Foram utilizadas cinco armadilhas do tipo Malaise distribuídas em duas áreas de vegetação nativa e uma constituída demonocultura, com monitoramento mensal por dois anos consecutivos. Os insetos foram triados e os espécimes da família Chalcididae identificados em nível de espécie, quando possível. Totalizaram-se 182 espécimes, distribuídos em cinco gêneros (Aspirrhina Kyrbi, 1883; Brachymeria Westwood, 1829; Conura Spinola, 1837; Dirhinus Dalman, 1818 e Haltichella Spinola, 1811), 18 espécies identificadas e 32 morfotipadas. O gênero Conura foi o mais abundante e também o mais, com 12 espécies nomeadas e potencialmente 30 novas espécies. A vegetação nativa apresentou maior abundância e maior riqueza taxonômica, principalmente na capoeira. O eucalipto teve baixa diversidade com predominância de Brachymeria. A espécie C. nigricornis se apresentou com maior frequência relativa. Este estudo constitui a primeira lista de espécies de Chalcididae no semiárido. As amostragens realizadas no semiárido baiano evidenciaram uma diversidade relevante de Chalcidade quando comparada com outras regiões brasileiras.
Palavras-chave:
Chalcidoidea; Conura nigricornis; Parasitoide
INTRODUCTION
Tropical regions tend to have a high diversity of species of parasitoids of the Hymenoptera order than temperate regions (NOYES, 1989NOYES, J. S. The diversity of Hymenoptera in the tropics with special reference to Parasitica in Sulawesi. Ecological Entomology, 14: 197-207, 1989.). However, despite of these insects to contribute to essential processes of the ecosystems, there is a lack of interest in the development of faunistic studies associated them with some biomes in Brazil (MARCHIORI, 2021MARCHIORI, C. H. Parasitoids collected in the Caatinga biome in Brazil. Open Access Research Journal of Biology and Pharmacy, 2: 1–19, 2021.). The scarcity of information on the fauna of this group is even higher when considering drier regions, such as the Caatinga biome in Brazil (SHIMBORI et al., 2014SHIMBORI, E. M. et al. Contribuição ao conhecimento da fauna de Ichneumonoidea (Hymenoptera) do Semiárido brasileiro. In: BRAVO, F.; A. CALOR (Eds.). Artrópodes do Semiárido -Biodiversidade e Conservação. Feira de Santana, BA: Printmídia, 2014, cap. 12, 139-167.; SHIMBORI et al., 2017SHIMBORI, E. M. et al. Hymenoptera “Parasitica” in the state of Mato Grosso do Sul, Brazil. Heringia Série Zoologia, 107: e2017121, 2017.; FERNANDES et al., 2020FERNANDES, D. R. R. et al. Hymenoptera fauna, with emphasis on Ichneumonidae from an area of Caatinga in Northeast Brazil. EntomoBrasilis, 13:e0874, 2020.).
Hymenoptera parasitoids from the family Chalcididae (Latreille, 1817) are predominantly found alone, associated mainly with Lepidoptera and Diptera larvae, and some species present hyperparasitoid dynamics (TIBCHERANI; ARANDA; MELLO, 2016TIBCHERANI, M.; ARANDA, R.; MELLO, R. L. First record of Conura morleyi (Ashmead, 1904) (Hymenoptera: Chalcididae) parasitizing Brassolis sp. (Lepidoptera: Nymphalidae) for Mato Grosso do Sul, Brazil. Biotaxa, 12: 1-4, 2016.; NOYES, 2019NOYES, J. S. 2019. Universal Chalcidoidea Database. Disponível em: <http://www.nhm.ac.uk/our-science/data/chalcidoids/database/>. Acesso em: 04 jun. 2020.
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). The representatives of this family are widely distributed, encompassing 87 genera and 1,464 known species (NOYES, 2019NOYES, J. S. 2019. Universal Chalcidoidea Database. Disponível em: <http://www.nhm.ac.uk/our-science/data/chalcidoids/database/>. Acesso em: 04 jun. 2020.
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), but the total number of species is considered well higher, as it is a little-known group.
In Brazil, there are 258 species distributed in 19 genera; Conura, Brachymeria, and Ceyxia are the most diverse genera (TAVARES, 2018TAVARES, M. T. Chalcididae in Catálogo Taxonômico da Fauna do Brasil. PNUD. 2018. Disponível em: <http://fauna.jbrj.gov.br/fauna/listaBrasil/ConsultaPublicaUC/ConsultaPublicaUC.do>. Acesso em: 21 set. 2018.
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). Chalcididae are characterized by a potential to control populational densities of hosts species and are used in conservative (DELVARE, 2017DELVARE, G. Order Hymenoptera, family Chalcididae. In: VAN HARTEN A. (Ed.). Arthropod fauna of the United Arab Emirates. Abu Dhabi: United Arab Emirates. Department of the President's Affairs. 2017. v. 6, p. 229-232.) and natural (DELVARE; GENTY, 1992DELVARE, G.; P. GENTY. Intérêt des plantes attractives pour la faune auxiliaire dans les palmeraies d'Amérique tropicale. Oléagineux, 47: 551-559, 1992.) biological control programs, as several of their hosts are species of economic interest by being agroforestry pests. The species Brachymeria pandora (Crawford, 1914), for example, can be a potential agent for the control of defoliating pest species in eucalyptus plantations, such as Thyrinteina leucocerae (Rindge) (Geometridae) (ZACHÉ et al., 2012ZACHÉ, B. et al. Brachymeria pandora (Crawford) (Hymenoptera: Chalcididae) as a New Parasitoid of Thyrinteina leucocerae (Rindge) (Lepidoptera: Geometridae) in Brazil. Neotropical Entomology, 41: 343-344, 2012.).
Regional studies on the biodiversity of parasitoid wasps including semiarid regions can contribute to the identification of new species with potential to be applied in biological control (MARCHIORI, 2021MARCHIORI, C. H. Parasitoids collected in the Caatinga biome in Brazil. Open Access Research Journal of Biology and Pharmacy, 2: 1–19, 2021.). Faunistic studies on Hymenoptera parasitoids have been conducted for several crop species (DALL’OGLIO et al., 2003DALL’OGLIO, O. et al. Himenópteros parasitóides coletados em povoamento de Eucalyptus grandis e mata nativa em Ipaba, estado de Minas Gerais. Ciência Florestal, 13: 123-129, 2003.; SPERBER et al., 2004SPERBER, C. F. et al. Tree species richness and density affect parasitoid diversity in cacao agroforestry. Basic and Applied Ecology, 5: 241-251, 2004.; NAKAYAMA et al., 2008NAKAYAMA, K. et al. Sampling parasitoid wasps (Insecta, Hymenoptera) in cacao agroforestry systems. Studies on Neotropical Fauna and Environment, 43: 217-226, 2008.; PERIOTO et al., 2002PERIOTO, N. W. et al. Himenópteros parasitóides (Insecta, Hymenoptera) coletados na cultura de soja (Glycine max (L.) Merril) (Fabaceae), no município de Nuporanga, SP, Brasil. Revista Brasileira de Entomologia, 46:185-187, 2002.; SPERBER et al., 2012SPERBER, C. F. et al. Drivers of parasitoid wasps' community composition in cacao agroforestry practice in Bahia State, Brazil. In: KAONGA, M. L. Agroforestry for biodiversity and ecosystem services – science and practice. Rijeka, Croatia: Intechopen.com, 2012. cap. 3, p. 45-64.), including those in the semiarid regions (FERNANDES et al., 2014FERNANDES, D. R. R. et al. Survey of the Hymenoptera Fauna in a “Caatinga” Area in the State of Rio Grande do Norte, Northeastern. Brazil. EntomoBrasilis, 7: 211-215, 2014.; COSTA et al., 2016COSTA, E. M. et al. Diversidade e métodos de amostragem de Hymenoptera na cultura da melancia no semiárido. Horticultura Brasileira, 34: 257-264, 2016.) and in the state of Bahia (PALMA-SANTOS; PÉREZ-MALUF, 2010PALMA-SANTOS, M. C.; PÉREZ-MALUF, R. Comunidade de parasitóides associada à cultura do café em Piatã, Chapada Diamantina, BA. Revista Ceres, 57: 194-197, 2010.), but still are mostly based on the family and subfamily levels (ARANDA; GRACIOLLI, 2015ARANDA, R.; GRACIOLLI, G. Spatial–temporal distribution of the Hymenoptera in the Brazilian Savanna and the effects of habitat heterogeneity on these patterns. Journal of Insect Conservation, 19: 1173–1187, 2015.).
Few studies on diversity of Chalcididae in Brazil are found, including those conducted by Oliveira et al. (2014)OLIVEIRA, R. G. et al. Diversity of hymenopteran parasitoids (Hymenoptera: Chalcididae) associated with teak (Tectona grandis) forests. Advanced Science, 1: 59-64, 2014. in different sites with plantations of Tectona grandis in the Cerrado biome of the state of Mato Grosso, and by Marchiori, Penteado-Dias and Tavares (2003)MARCHIORI, C. H.; PENTEADO-DIAS, A. M.; TAVARES, M. T. Parasitoids of the family Chalcididae colleted in pastures and forests using yellow traps, in Itumbiara, Goiás, Brazil. Brazilian Journal of Biology, 63: 357- 360, 2003. in pastures and native forest areas in the state of Goiás.
The references for Chalcididae species in Brazil are the list of species developed for the state of Espírito Santo with the record of 149 species from 11 genera (TAVARES; ARAUJO, 2007TAVARES, M. T.; ARAUJO, B. C. Espécies de Chalcididae (Hymenoptera, Insecta) do Estado do Espírito Santo, Brasil. Biota Neotropical, 7: 1-8, 2007.) and the list of species of the state of Mato Grosso do Sul, which encompasses mainly species associated with the Pantanal and Cerrado biomes, with the record of 22 species from four genera (SHIMBORI et al., 2017SHIMBORI, E. M. et al. Hymenoptera “Parasitica” in the state of Mato Grosso do Sul, Brazil. Heringia Série Zoologia, 107: e2017121, 2017.).
In Bahia, the records of species include Chalcis danunciae Saguiah and Tavares (SAGUIAH; DAL MOLIN; TAVARES, 2020SAGUIAH, P. M.; DAL MOLIN, A.; TAVARES, M. T. The South American species of Chalcis Fabricius (Hymenoptera: Chalcididae). Zootaxa, 3: 353–383, 2020.); Ceyxia pseudovillosa, Conura morleyi (Ashmead), Melanosmicra acutodentata (Cameron), M. rugosa and Zavoya cooperi (Bouček) (NOYES, 2019NOYES, J. S. 2019. Universal Chalcidoidea Database. Disponível em: <http://www.nhm.ac.uk/our-science/data/chalcidoids/database/>. Acesso em: 04 jun. 2020.
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), Ceyxia ventrispinosa, and Ceyxia concitator (ANDRADE; TAVARES, 2009ANDRADE, T. V.; TAVARES, M. T. Revisão de Ceyxia Girault, stat. rev. (Hymenoptera, Chalcididae, Brachymeriini). Revista Brasileira de Entomologia. 53: 511 - 548, 2009.). As far as known to date, Bahia still does not have a compilation confirming the number of Chalcididae species found, nor studies on the faunistic composition of this family in the Semiarid region. The list of species in the present research is a contribution at the state level and the first in the Semiarid region of Brazil.
The objective of this work was to record Chalcididae species that occur in the Planalto da Conquista region, in the Semiarid region of the state of Bahia, Brazil, focused on contributing with biogeographic information on neotropical fauna.
MATERIAL AND METHODS
Study area
The parasitoids were collected in the municipality of Barra do Choça, in the southwest region of the state of Bahia, which is in the Semiarid region of Brazil, according to the Deliberative Council (CONDEL) of the Superintendency for the Development of the Northeast (Sudene), by the Resolutions no. 107/2017 and no. 115/2017. The region presents a plain to slightly wavy relief, mean altitude of 840 m, a Cwb, tropical highland climate, according to the Köppen classification, mean annual temperature of 25 °C, and mean annual rainfall depth of 850 mm (BARBOSA et al., 2017BARBOSA, V. et al. Biomassa, carbono e nitrogênio na serapilheira acumulada de florestas plantadas e nativa. Floresta e Ambiente, 24: 1-9, 2017.).
The area encompasses three phytophysiognomies, one monoculture and two native vegetation at different stages of succession, classified as Montana Semi-Deciduous Seasonal Forest according to the classification of Ivanauskas and Assis (2012)IVANAUSKAS, N. M.; ASSIS, M. C. Formações florestais brasileiras. In: MARTINS, S. V. (Ed.). Ecologia de florestas tropicais do Brasil. 2 ed. Viçosa, MG: UFV, 2012. v. 4, cap. 4, p. 252-293.. The first phytophysiognomy consisted of a plantation of Eucalyptus urophylla (approximately 30 ha); the second phytophysiognomy is classified as capoeira, according to the Brazilian Institute of Geography and Statistics (IBGE, 2012IBGE - Instituto Brasileiro de Geografia e Estatística. Manual Técnico em Vegetação Brasileira. Rio de Janeiro, RJ: Fundação Instituto Brasileiro de Geografia e Estatística, 2012. 271 p. (Série Manuais Técnicos em Geociências, 2).), presenting vegetation at initial stage of succession, dominated by individuals with up to 5 m height and predominance of pioneers species (approximately 6 ha); and the third phytophysiognomy was a secondary forest fragment consisted of individuals of the higher stratum with approximately 15 m height (approximately 86 ha). The areas were not separated, but adjacent.
Collections were carried out monthly using Malaise traps, model Townes (1972)TOWNES, H. A. A light-weight Malaise trap. Entomological News, 83: 239-247, 1972., for two consecutive years (January 2016 to December 2017). Five traps were distributed, two in the interior of the eucalyptus plantation, namely, Point 1 (14°52′33.59″S and 40°41′45.25″W) and Point 2 (14°52′35.99″S and 40°41′43.03″W), one in the capoeira, Point 3 (14°52′45.99″S and 40°41′40.34″W), and two in the forest, Point 4 (14°52′57.16″S and 40°41′37.78″W) and 5 (14°52′55.3″S and 40°41′36.00″W) (Figure 1), adopting a methodology similar to that used by Dall’Oglio et al. (2003)DALL’OGLIO, O. et al. Himenópteros parasitóides coletados em povoamento de Eucalyptus grandis e mata nativa em Ipaba, estado de Minas Gerais. Ciência Florestal, 13: 123-129, 2003..
Satellite image of the area with the sampling points of the studied phytophysiognomies and the respective geographic coordinates. Points 1 and 2: plantation of Eucalyptus urophylla; Point 3: Capoeira; and Points 4 and 5: Secondary Forest. Planalto da Conquista, Bahia, Brazil.
The traps were installed at the ground level, at 200 m and 300 m from the eucalyptus plantation edge (Point 1 and Point 2, respectively) and from the forest edge (Point 4 and Point 5). The distance between the two traps was 100 m to avoid distances lower than 100 m from the edge of these areas. The distance from the capoeira edge to Point 3 was approximately 250 m.
The Chalcididae species were identified by a taxonomist (PhD Bruno Cancian de Araujo; Zoologischer Staatsammlung Munchen, Germany) w it h t h e aid of specific literature, such as Andrade and Tavares (2009)ANDRADE, T. V.; TAVARES, M. T. Revisão de Ceyxia Girault, stat. rev. (Hymenoptera, Chalcididae, Brachymeriini). Revista Brasileira de Entomologia. 53: 511 - 548, 2009., Bouček (1992), Delvare (1992)DELVARE, G. A reclassification of the Chalcidini with a checklist of the New World species. Memoirs of the American Entomological Institute, 53: 119-466, 1992., Navarro-Tavares and Tavares (2008)NAVARRO-TAVARES, A. B.; TAVARES, M. T. Revisão das espécies de Melanosmicra Ashmead (Hymenoptera, Chalcididae). Revista Brasileira de Entomologia, 52: 550-574, 2008., and Saguiah, Dal Mo lin , and Tavares (2020)SAGUIAH, P. M.; DAL MOLIN, A.; TAVARES, M. T. The South American species of Chalcis Fabricius (Hymenoptera: Chalcididae). Zootaxa, 3: 353–383, 2020.. All specimens were d ep osited in the Entomological Collection of the Dep ar t m ent of Biological Sciences of the Federal University of Espírito Santo, Vitória, Brazil, under the care of the curator PhD Marcelo Texeira Tavares. The images of the species collected were obtained through a LAS Montage extended focus system coupled to a Leica Z16 APO stereomicroscope and a DFC495 camera.
The composition of the Chalcididae community was characterized by adopting faunistic indexes of relative frequency, wealth, abundance, constancy, and dominance, according to methodology proposed by Silveira Neto et al. (1976)SILVEIRA NETO, S. et al. Manual de ecologia dos insetos. Piracicaba, SP: Agronômica Ceres, 1976. 419 p.. In addition, the Shannon diversity (H’) and evenness (J) indexes (PRICE et al., 2011PRICE, P. W. et al. Insect Ecology. Cambridge University Press. UK. 2011. 816 p.) were estimated, as well as Chao-1 wealth estimator and rarefaction curve for each phytophysiognomy, using the statistical program Past 2.16 (2012) (HAMMER; HARPER; RYAN, 2001HAMMER, Ø.; HARPER, D. A.; RYAN, P. D. PAST: Paleontological statistics software package for education and data analysis. Palaeontologia Electronica, 4: 1-9, 2001.).
The species were categorized by constancy [constant (W) = presence in more than 50% of the samples; accessory (Y) = presence in 25-50% of the samples; and accidental (Z) = presence in less than 25% of the samples] and dominance [non-dominant and dominant: species that presented relative frequency higher than or equal to 1/S, where S = wealth of species] indexes. The combination of these two indexes were used to classify the species as common (constant and dominant), intermediate (accessory and dominant; accessory and not dominant; constant and not dominant; accidental and dominant), and rare (accidental and not dominant), as adopted by Scatolini and Penteado-Dias (2003)SCATOLINI, D.; PENTEADO-DIAS, A. M. Análise faunística de Braconidae (Hymenoptera) em três áreas de mata nativa do Estado do Paraná, Brasil. Revista Brasileira de Entomologia, 47: 187-195, 2003..
RESULTS AND DISCUSSION
The 182 individuals collected were from five genera: Aspirrhina Kyrbi, 1883; Brachymeria Westwood, 1829; Conura Spinola, 1837; Dirhinus Dalman, 1818; and Haltichella Spinola, 1811 (Figure 2) and 50 morphospecies (18 identified species and 32 morphotypes) (Table 1).
Lateral perspective of species from the five genera found: (A) Aspirrhina dubitator (Walker, 1862), (B) Brachymeria panamensis (Holmgren 1868), (C) Conura nigricornis (Fabricius, 1798), (D) Dirhinus texanus (Ashmead, 1896), (E) Haltichella ornaticornis Cameron, 1884. Scale bar = 1 mm.
Wealth, abundance, relative frequency, constancy, and dominance of species of Chalcididae (Hymenoptera, Chalcidoidea) collected in Planalto da Conquista, Bahia, Brazil, from 2016 to 2017.
The wealth of species found in the samples was high when compared to a study in the Cerrado biome, with similar sample effort, conducted by Oliveira et al. (2014)OLIVEIRA, R. G. et al. Diversity of hymenopteran parasitoids (Hymenoptera: Chalcididae) associated with teak (Tectona grandis) forests. Advanced Science, 1: 59-64, 2014., which presented higher abundance and lower wealth of species (414 and 16, respectively). This difference in diversity of Chalcididae species between biomes is expected, as each one is characterized by specific micro-environmental factors and disturbances that consequently result in differences in flora and fauna diversities.
Regarding the phytophysiognomies studied, the traps in the native vegetation presented higher abundance and higher taxonomic wealth (Table 1), mainly those in the capoeira (113 insects per trap and 37 species). The phytophysiognomy of the eucalyptus plantation presented low diversity (11 insects per trap and 10 species), with the collection of only one genus, Conura (Table 1, Figure 3).
Rarefaction curve of Chalcididae species collected using Malaise traps in different phytophysiognomies, plantation of Eucalyptus urophylla (E), Capoeira (C), and Secondary Forest (FS), from January 2016 to December 2017. Confidence Interval (IC): 95%.
Oliveira et al. (2014)OLIVEIRA, R. G. et al. Diversity of hymenopteran parasitoids (Hymenoptera: Chalcididae) associated with teak (Tectona grandis) forests. Advanced Science, 1: 59-64, 2014. also found higher wealth of Chalcididae in areas with native vegetation compared to areas with plantations of Tectona grandis. The structural complexity of the habitat is directly related to the wealth and abundance of Hymenoptera insects (ARANDA; GRACIOLLI, 2015ARANDA, R.; GRACIOLLI, G. Spatial–temporal distribution of the Hymenoptera in the Brazilian Savanna and the effects of habitat heterogeneity on these patterns. Journal of Insect Conservation, 19: 1173–1187, 2015.). In addition, in the same study area, including this same phytophysiognomy, Paula (2018)PAULA, R. C. A. L. Comunidade de himenópteros parasitoides associados a eucalipto e ambientes de vegetação nativa no Planalto da Conquista-BA. 2018. 169 f. Tese (Doutorado em Agronomia: Área de concentração em Fitotecnia) - Universidade Estadual do Sudoeste da Bahia, Vitória da Conquista, 2018. conducted entomological faunistic surveys during the same period of the collections of Chalcididae and easily found presence of plant species at flowering and fruiting stages, which may have served as an environment for refuge, shelter, and feeding resources for these parasitoids. Oliveira et al. (2014)OLIVEIRA, R. G. et al. Diversity of hymenopteran parasitoids (Hymenoptera: Chalcididae) associated with teak (Tectona grandis) forests. Advanced Science, 1: 59-64, 2014. and Schoeninger et al. (2019)SCHOENINGER, K. et al. Diversity of parasitoid wasps in conventional and organic guaraná (Paullinia cupana var. sorbilis) cultivation areas in the Brazilian Amazon. Acta Amazonica, 49: 283-293, 2019. pointed out that native vegetation constitutes a refuge for the maintenance of diversity of parasitoids in monocultures. This can be also be the case in the present study, denoting the need for preservation of these environments.
Souza et al. (2010)SOUZA, M. M. et al. Social wasps (Hymenoptera: Vespidae) as indicators of conservation degree of riparian forests in southeast Brazil. Sociobiology, 56: 387-396, 2010. evaluated social wasps (Vespidae) and found that environments formed by vegetation at different stages of succession or under recovery processes may have higher number of prays due to the high wealth of plants, which also increases their diversity.
The genus Conura presented higher abundance within the Chalcididae collected (88%), and the highest wealth of species (42) (Table 1); similar results were found by Oliveira et al. (2014)OLIVEIRA, R. G. et al. Diversity of hymenopteran parasitoids (Hymenoptera: Chalcididae) associated with teak (Tectona grandis) forests. Advanced Science, 1: 59-64, 2014. in plantations of T. grandis in the Cerrado biome. In addition, Marchiori, Penteado-Dias, and Tavares (2003)MARCHIORI, C. H.; PENTEADO-DIAS, A. M.; TAVARES, M. T. Parasitoids of the family Chalcididae colleted in pastures and forests using yellow traps, in Itumbiara, Goiás, Brazil. Brazilian Journal of Biology, 63: 357- 360, 2003., using a collection methodology different from that used in the present study, reported Haltichella as the genus presenting most abundance and wealth of species.
Conura presented higher abundance in the capoeira (68%) followed by the secondary forest (25%) and the eucalyptus plantation (14%). The species Conura nigricornis (Figure 2C) presented higher relative frequency (14%) (Table 1), mainly in the capoeira. This species parasites Lepidoptera species of the family Limacodidae (Adoneta sp.; Adoneta spinuloides (Herrich-Schaffer, 1854), Limacodes sp.; Parasa sp., and Parasa indetermina (Boisduval, 1832) (NOYES, 2019NOYES, J. S. 2019. Universal Chalcidoidea Database. Disponível em: <http://www.nhm.ac.uk/our-science/data/chalcidoids/database/>. Acesso em: 04 jun. 2020.
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).
Conura species are considered as parasitoids with wide distribution; they are generalists and have insect hosts from several Coleoptera, Diptera, and Lepidoptera families (DELVARE; ARIAS-PENNA, 2006DELVARE, G.; ARIAS-PENNA, D. C. Familia Chalcididae. In: FERNÁNDEZ, F; SHARKEY, M. J. (Eds.) Introducción a los Hymenoptera de la Región Neotropical. Sociedad Colombiana de Entomologia Y Universidad Nacional de Colombia. Bogotá, Colombia, 2006. cap. 65, p. 647-660.). In addition, this genus presents a complex systematic, with at least three subgene3ra, three species complexes, and 63 groups, constituting the highest wealth of Chalcididae species (NOYES, 2019NOYES, J. S. 2019. Universal Chalcidoidea Database. Disponível em: <http://www.nhm.ac.uk/our-science/data/chalcidoids/database/>. Acesso em: 04 jun. 2020.
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), consisting mainly of the species found in the studies of Tavares and Araujo (2007)TAVARES, M. T.; ARAUJO, B. C. Espécies de Chalcididae (Hymenoptera, Insecta) do Estado do Espírito Santo, Brasil. Biota Neotropical, 7: 1-8, 2007., Shimbori et al. (2017)SHIMBORI, E. M. et al. Hymenoptera “Parasitica” in the state of Mato Grosso do Sul, Brazil. Heringia Série Zoologia, 107: e2017121, 2017., and Araujo et al. (2019)ARAUJO, B. C. et al. Accelerating the knowledge of Peruvian Chalcididae (Insecta, Hymenoptera, Chalcidoidea) with integrative taxonomy. Biodiversity Data Journal, 7: 1-35, 2019..
Most of the species found are still not described (30 new species), representing potential biotypes (Table 1). Some specimens found in this research had not defined identifications at specific levels because Chalcididae encompasses a group of many species to be described, which slows the taxonomic advance for this group (TAVARES; ARAUJO, 2007TAVARES, M. T.; ARAUJO, B. C. Espécies de Chalcididae (Hymenoptera, Insecta) do Estado do Espírito Santo, Brasil. Biota Neotropical, 7: 1-8, 2007.). The genus Brachymeria was found for 100% of the species in the capoeira. Oliveira et al. (2014)OLIVEIRA, R. G. et al. Diversity of hymenopteran parasitoids (Hymenoptera: Chalcididae) associated with teak (Tectona grandis) forests. Advanced Science, 1: 59-64, 2014. also found this genus in the interior of plantations of T. grandis, as in an area with T. grandis plantations with adjacent pasture. The main genera found in the present study (Conura and Brachimeria) are highlighted by their wealth and abundance in the capoeira, which implies that this environment has favorable conditions for their survival, including presence of food and hosts.
Brachymeria wasps are parasitoids of Lepidoptera, Diptera, Coleoptera, and Hymenoptera species (BOUČEK, 1992BOUČEK, Z. The New World genera of Chalcididae. Memoirs of the American Entomological Institute, 53: 49-118, 1992.) and are important for the biological control of insect-pests (DELVARE; ARIAS-PENNA, 2006DELVARE, G.; ARIAS-PENNA, D. C. Familia Chalcididae. In: FERNÁNDEZ, F; SHARKEY, M. J. (Eds.) Introducción a los Hymenoptera de la Región Neotropical. Sociedad Colombiana de Entomologia Y Universidad Nacional de Colombia. Bogotá, Colombia, 2006. cap. 65, p. 647-660.). In the forest area, Brachymeria species are being studied for future applications in biological control programs for the main defoliating Lepidoptera species of Eucalyptus in Brazil. The pest-species that occur in Eucalyptus plantations in the state of Bahia include Brachymeria ovata (Say), a parasitoid of Eupseudosoma aberrans (Schaus), E. involuta Sepp (Arctiidae) (OHASHI; BERTI FILHO, 1988OHASHI, O. S.; BERTI FILHO, E. Inimigos naturais de Eupseudosoma aberrans Schaus, 1905 e E. involuta (Sepp, 1852) (Lepidoptera, Arctiidae), praga de Eucalyptus spp. (Myrtaceae). Instituto de Pesquisa e Estudos Florestais, s/v.: 43-44, 1988.), and Sarsina violascens (Herrich–Schaeffer) (Lymantriidae); Brachymeria pandora (Crawford), a parasitoid of Thyrinteina leucoceraea Rindge (ZACHÉ et al., 2012ZACHÉ, B. et al. Brachymeria pandora (Crawford) (Hymenoptera: Chalcididae) as a New Parasitoid of Thyrinteina leucocerae (Rindge) (Lepidoptera: Geometridae) in Brazil. Neotropical Entomology, 41: 343-344, 2012.); and Brachymeria pseudovata Blanchard, a parasitoid of Oiketicus kirbyi Guilding (Psychidae) (COSTA LIMA, 1945COSTA LIMA, A. M. Insetos do Brasil: Lepidópteros. Rio de Janeiro, RJ: Escola Nacional de Agronomia, 1945. v. 5, 361 p. (Série Didática, 7).).
None of the species collected was considered as common due to their occurrence in the samples (dominant and constant) and most species had rare occurrence (accidental and not dominant) (Table 1), denoting a little distribution of species over the sampling period and small populations. Species of this faunistic category seems to be little studied for their functions in the environments and should be better understood, not only as a category, but as important species that need to be preserved due to the functions that they may have in the environment (MOUILLOT et al., 2013MOUILLOT, D. et al. Rare species support vulnerable functions in high-diversity ecosystems. PloS Biology, 11: e1001569, 2013.).
CONCLUSION
The present study shows a record of 18 Chalcididae species in the Semiarid region of the state of Bahia, Brazil.
The samplings showed a significant diversity of Chalcididae when compared to other regions of Brazil, and that they need to be further studied.
ACKNOWLEDGEMENTS
The authors thank the Foundation for Research Support of the State of Bahia (FAPESB) for granting a doctoral scholarship to the first author.
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Paper extracted from the doctoral thesis of the first author.
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Publication Dates
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Publication in this collection
22 Aug 2022 -
Date of issue
Jul-Sep 2022
History
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Received
11 Sept 2020 -
Accepted
17 Jan 2022