Your search keyword '"Piovesan, Mônica"' showing total 6 results

1. Systematics of Apatelodidae Neumoegen & Dyar, 1894 (Lepidoptera: Bombycoidea) based on molecular and morphological data.

Author

Orlandin, Elton, Piovesan, Mônica, and Carneiro, Eduardo

Subjects

*NATURAL history, *GENITALIA, *SUBSPECIES, *PHYLOGENY, *MOTHS

Abstract

Apatelodidae is a family of New World bombycoids distributed mainly in the Neotropical region, with 14 genera, 222 valid species and 8 subspecies. These moths are medium-sized with a wingspan ranging from 2 to 8 cm, generally greyish, straw-yellow or reddish-brown, with darker spots and lines on the dorsal side of the wings. We combine adult morphology and molecular data to test, under a probabilistic framework, the monophyly of apatelodid genera and the placement of Tamphana (Bombycidae). We sampled the type species of 12 of the 14 valid genera of Apatelodidae, including the type species of synonymised genera. We sampled ~75% of the species from all valid genera in the family and outgroups from Bombycidae, Brahmaeidae, Eupterotidae and Phiditiidae, totalling 195 terminals. Examination of the specimens resulted in a matrix of 138 morphological characters (116 from male; 22 from female) from the head (7 from male; 1 from female), thorax (37 from male; 4 from female), abdomen (5 from male) and genitalia (66 from male; 17 from female). For the molecular analyses, we used four genes: DDC (647 bp) for 14% of terminals; CAD (2486 bp) for 23% of terminals, Wgl (409 bp) for 38% of terminals and COI (658 bp) for 75% of terminals. Species of Tamphana were recovered in Apatelodidae as two independent clades. The genera Arotros , Crastolliana , Drepatelodes , Pantelodes , and Prothysana were recovered as monophyletic. The remaining apatelodid genera were polyphyletic. We propose a new genus-level classification: Tamphana is transferred to Apatelodidae; 16 new genera are proposed: Aymara gen. nov. , Campesina gen. nov. , Caribas gen. nov. , Cecile gen. nov. , Kaweskar gen. nov. , Lempira gen. nov. , Misak gen. nov. , Mocambo gen. nov. , Nhanderu gen. nov. , Peabiru gen. nov. , Raoni gen. nov. , Tapuia gen. nov. , Tibira gen. nov. , Tupac gen. nov. , Tuyvae gen. nov. and Zapata gen. nov. Two new species are described: Mocambo lauracensis sp. nov. , and Nhanderu takua sp. nov. We revalidate the genus Hygrochroa stat. rev. and three species: Carnotena perlineata stat. rev., Tupac bombycina stat. rev., comb. nov. and Zanola vivax stat. rev. Overall, we propose 82 new generic combinations, synonymise 16 species, and restore the status of 3 species: Apatelodes floramia stat. rest. , Carnotena rectilinea comb. nov. , stat. rest. and Ephoria nubilosa stat. rest. Additionally, we summarise data on the natural history and distribution of each Apatelodidae species. ZooBank: We sampled ~75% of Apatelodidae species from all valid genera and combined morphological and molecular data to test monophyly of its genera. Our findings demonstrate that most Apatelodidae genera, as currently understood, are not monophyletic and revealed that groups of species with similar characters may constitute valid genera. We propose a new genus-level classification for Apatelodidae and include data on its natural history and geographical distribution. (Image credit: Guilherme Fischer.) [ABSTRACT FROM AUTHOR]

Published

2024

2. Green cutworm Anicla ignicans (Lepidoptera: Noctuidae): Identity, geographical distribution, immature morphology, host plants and biology in controlled conditions.

Author

Piovesan, Mônica, Orlandin, Elton, Carneiro, Eduardo, Venâncio, Lidia, Roque‐Specht, Vânia Ferreira, Casagrande, Mirna Martins, Mielke, Olaf Hermann Hendrik, Bonfin, Felipe Alverne Dourado, Vieira, Paulo Victor Machado, and Specht, Alexandre

Subjects

*HOSTS (Biology), *HOST plants, *NOCTUIDAE, *LEPIDOPTERA, *AGRICULTURE, *LARVAE, *ANIMAL feeds, *EGGS

Abstract

The subgenus Anicla, commonly known as green cutworms, harbours some of the owlet moths (Lepidoptera: Noctuinae), whose larvae are notable for their economic importance. Knowledge of the immature stages for this group is available for three of the nine described species. Anicla infecta Ochsenheimer, 1816 is widely distributed in the Americas and is especially abundant in agricultural ecosystems. However, in the Neotropics, its economic damage can be confused with sympatric species, including Anicla ignicans (Guenée, 1852), whose distributions overlap in most parts of the American continent. In this sense, here, the identity of A. ignicans is investigated through its geographical distribution, based on molecular and morphological data. Additionally, the morphological and behavioural traits of immature stages were described in detail, information about its geographical distribution and larval host plants was gathered, and the species' biological parameters from larvae reared on an artificial diet were determined. Anicla ignicans is distributed throughout the Neotropical region, preferably in areas with xeric and/or grass‐dominated ecosystems. The eggs present valuable characters to distinguish A. ignicans from other owlet moth species, such as the reduced number of ribs, the way the micropyle openings are arranged and the shape of the aeropyles. However, the larvae show very similar chromatic polymorphisms to other Anicla species. Although A. ignicans prefer to feed on grasses, it was observed that more than 85% of the larvae that were fed with a modified bean‐based Greene diet survived. Additionally, the percentage of time for each phase of development obtained here is very similar for the different species of Anicla, regardless of the temperature or feeding of the larvae. [ABSTRACT FROM AUTHOR]

Published

2024

3. Biological and morphological aspects of Drepatelodes Draudt, 1929, the genus sister to all other Apatelodidae (Lepidoptera: Bombycoidea).

Author

Orlandin, Elton, Piovesan, Mônica, and Carneiro, Eduardo

Subjects

*NATURAL history, *LEPIDOPTERA, *LIFE cycles (Biology), *SILKWORMS, *FAMILY relations, *LARVAE

Abstract

Despite their relatively high abundance in the Neotropics, so far only a few studies investigated the immature stages of the Apatelodidae. Still, the information available belongs to a few of the typical genera of the family, e.g. Apatelodes and Olceclostera, leaving the natural history of all other described genera mostly unexplored. Here we investigated the immature stages of the Drepatelodes friburgensis(Bombycoidea: Apatelodidae), a representative of the genus sister to the remainder of Apatelodidae, aiming to contribute to a broader view of the biological aspects of this neglected Neotropical family and provide new insights into the evolution of Bombycoidea. Additionally, we present a redescription of the male and the first description of the female of D. friburgensis. Drepatelodes friburgensis shows dome-shaped eggs, covered by scales arranged in radial bands. The larvae are ornamented with two conspicuous fleshy processes (on A3 and A8). The imago has a short proboscis and M3 and CuA1 fused in the hindwing. These characters alone have not been reported for Apatelodidae and may have importance in helping to understand the evolution of the group, here we discussed these characters in an evolutionary context for the family and its relationships within the Bombycoidea. [ABSTRACT FROM AUTHOR]

Published

2023

4. A new species of Caeruleuptychia Forster, 1964 from the Amazon basin (Lepidoptera: Nymphalidae: Satyrinae: Satyrini).

Author

Nakahara, Shinichi, Piovesan, Mônica, Baine, Quinlyn, MacKenzie, Emma C., Gallice, Geoffrey, Barbosa, Eduardo P., and Kleckner, Kaylin

Subjects

*NYMPHALIDAE, *LEPIDOPTERA, *SPECIES, *HOST plants, *NUCLEOTIDE sequence, *LARVAE

Abstract

Here, we describe and name a new nymphalid butterfly species in the subtribe Euptychiina. Caeruleuptychia thaliana Nakahara & Piovesan, n. sp. is proposed by incorporating three independent sources of evidence: adult external morphology, DNA sequence data, and early stage biology. Caeruleuptychia thaliana n. sp. is known from two sites in the Amazon basin, in the state of Mato Grosso, Brazil, and another site situated in Madre de Dios department, Peru. A single egg of C. thaliana n. sp. was obtained while conducting field work at the latter locality, and subsequently observations were made of the larva passing through four larval stages until reaching the adult stage. The natural host plant for C. thaliana n. sp. was identified as a species of grass, Lasiacis ligulata Hitchcock & Chase (Poaceae: Panicoideae: Paniceae). [ABSTRACT FROM AUTHOR]

Published

2023

5. From molecular data to natural history: a new species of Apatelodes (Lepidoptera: Bombycoidea: Apatelodidae) from southern Brazil.

Author

Orlandin, Elton, Piovesan, Mônica, and Carneiro, Eduardo

Subjects

*NATURAL history, *LEPIDOPTERA, *INSECT traps, *SPECIES, *INFORMATION resources

Abstract

Apatelodidae is a family of Neotropical bombycoids that is still poorly studied in several aspects. Besides being relatively large moths and abundant in light traps, only sources of information on the natural history of the family have been published, and basically none of this information has been used in the group's systematics. Aiming to contribute to a better understanding of Apatelodidae life-history studies, we describe a new species of Apatelodidae (Lepidoptera: Bombycoidea) from the Atlantic Forest, southern Brazil, including information from all life stages of the species. We also use DNA barcodes to support species delimitation. Apatelodes je sp. nov. can be differentiated from other species of Apatelodes by the colour of the wings, the morphology of the genitalia, and molecular evidence. Its relationship to other Apatelodes species is discussed taking into account its systematic position, morphology, and natural history. [ABSTRACT FROM AUTHOR]

Published

2022

6. Untitled.

Author

Piovesan, Mônica, Specht, Alexandre, Carneiro, Eduardo, Paula-Moraes, Silvana Vieira, and Casagrande, Mirna Martins

Abstract

The identification of factors responsible for the population dynamics is fundamental for pest management, since losses can reach 18% of annual production. Besides regular seasonal environmental factors and crop managements, additional supra-annual meteorological phenomena can also affect population dynamics, although its relevance has been rarely investigated. Among crop pests, Spodoptera stands out due to its worldwide distribution, high degree of polyphagy, thus causing damages in several crops in the world. Aiming to distinguish the relevance of different factors shaping population dynamics of Spodoptera in an ecosystem constituted of dry and rainy seasons, the current study used circular statistics to identify phenological patterns and test if its population fluctuation is driven by El Niño-Southern Oscillation (ENSO) effect, seasonal meteorological parameters, and/or host plant availability. Samplings were done in an intercropping system, in the Brazilian Savanna, during the new moon cycles between July/2013 and June/2016. Species were recorded all year round, but demonstrated differently non-uniform distribution, being concentrated in different seasons of the year. Population fluctuations were mostly affected by the ENSO intensity, despite the contrasting seasonal meteorological variation or host plant availability in a 400-m radius. Studies involving the observation of supra-annual phenomena, although rare, reach similar conclusions in relation to Neotropical insect fauna. Therefore, it is paramount to have long-term sampling studies to obtain a more precise response of the pest populations towards the agroecosystem conditions.The identification of factors responsible for the population dynamics is fundamental for pest management, since losses can reach 18% of annual production. Besides regular seasonal environmental factors and crop managements, additional supra-annual meteorological phenomena can also affect population dynamics, although its relevance has been rarely investigated. Among crop pests, Spodoptera stands out due to its worldwide distribution, high degree of polyphagy, thus causing damages in several crops in the world. Aiming to distinguish the relevance of different factors shaping population dynamics of Spodoptera in an ecosystem constituted of dry and rainy seasons, the current study used circular statistics to identify phenological patterns and test if its population fluctuation is driven by El Niño-Southern Oscillation (ENSO) effect, seasonal meteorological parameters, and/or host plant availability. Samplings were done in an intercropping system, in the Brazilian Savanna, during the new moon cycles between July/2013 and June/2016. Species were recorded all year round, but demonstrated differently non-uniform distribution, being concentrated in different seasons of the year. Population fluctuations were mostly affected by the ENSO intensity, despite the contrasting seasonal meteorological variation or host plant availability in a 400-m radius. Studies involving the observation of supra-annual phenomena, although rare, reach similar conclusions in relation to Neotropical insect fauna. Therefore, it is paramount to have long-term sampling studies to obtain a more precise response of the pest populations towards the agroecosystem conditions.The identification of factors responsible for the population dynamics is fundamental for pest management, since losses can reach 18% of annual production. Besides regular seasonal environmental factors and crop managements, additional supra-annual meteorological phenomena can also affect population dynamics, although its relevance has been rarely investigated. Among crop pests, Spodoptera stands out due to its worldwide distribution, high degree of polyphagy, thus causing damages in several crops in the world. Aiming to distinguish the relevance of different factors shaping population dynamics of Spodoptera in an ecosystem constituted of dry and rainy seasons, the current study used circular statistics to identify phenological patterns and test if its population fluctuation is driven by El Niño-Southern Oscillation (ENSO) effect, seasonal meteorological parameters, and/or host plant availability. Samplings were done in an intercropping system, in the Brazilian Savanna, during the new moon cycles between July/2013 and June/2016. Species were recorded all year round, but demonstrated differently non-uniform distribution, being concentrated in different seasons of the year. Population fluctuations were mostly affected by the ENSO intensity, despite the contrasting seasonal meteorological variation or host plant availability in a 400-m radius. Studies involving the observation of supra-annual phenomena, although rare, reach similar conclusions in relation to Neotropical insect fauna. Therefore, it is paramount to have long-term sampling studies to obtain a more precise response of the pest populations towards the agroecosystem conditions.The identification of factors responsible for the population dynamics is fundamental for pest management, since losses can reach 18% of annual production. Besides regular seasonal environmental factors and crop managements, additional supra-annual meteorological phenomena can also affect population dynamics, although its relevance has been rarely investigated. Among crop pests, Spodoptera stands out due to its worldwide distribution, high degree of polyphagy, thus causing damages in several crops in the world. Aiming to distinguish the relevance of different factors shaping population dynamics of Spodoptera in an ecosystem constituted of dry and rainy seasons, the current study used circular statistics to identify phenological patterns and test if its population fluctuation is driven by El Niño-Southern Oscillation (ENSO) effect, seasonal meteorological parameters, and/or host plant availability. Samplings were done in an intercropping system, in the Brazilian Savanna, during the new moon cycles between July/2013 and June/2016. Species were recorded all year round, but demonstrated differently non-uniform distribution, being concentrated in different seasons of the year. Population fluctuations were mostly affected by the ENSO intensity, despite the contrasting seasonal meteorological variation or host plant availability in a 400-m radius. Studies involving the observation of supra-annual phenomena, although rare, reach similar conclusions in relation to Neotropical insect fauna. Therefore, it is paramount to have long-term sampling studies to obtain a more precise response of the pest populations towards the agroecosystem conditions.The identification of factors responsible for the population dynamics is fundamental for pest management, since losses can reach 18% of annual production. Besides regular seasonal environmental factors and crop managements, additional supra-annual meteorological phenomena can also affect population dynamics, although its relevance has been rarely investigated. Among crop pests, Spodoptera stands out due to its worldwide distribution, high degree of polyphagy, thus causing damages in several crops in the world. Aiming to distinguish the relevance of different factors shaping population dynamics of Spodoptera in an ecosystem constituted of dry and rainy seasons, the current study used circular statistics to identify phenological patterns and test if its population fluctuation is driven by El Niño-Southern Oscillation (ENSO) effect, seasonal meteorological parameters, and/or host plant availability. Samplings were done in an intercropping system, in the Brazilian Savanna, during the new moon cycles between July/2013 and June/2016. Species were recorded all year round, but demonstrated differently non-uniform distribution, being concentrated in different seasons of the year. Population fluctuations were mostly affected by the ENSO intensity, despite the contrasting seasonal meteorological variation or host plant availability in a 400-m radius. Studies involving the observation of supra-annual phenomena, although rare, reach similar conclusions in relation to Neotropical insect fauna. Therefore, it is paramount to have long-term sampling studies to obtain a more precise response of the pest populations towards the agroecosystem conditions. [ABSTRACT FROM AUTHOR]

Published

2017