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  1. Book ; Online: Atlas of Butterflies and Diurnal Moths in the Monsoon Tropics of Northern Australia

    Coppen, Rebecca / Bishop, Carly / Williams, Andrew / Bisa, Deborah / Williams, Matthew / Franklin, Donald / Braby, Michael

    2018  

    Abstract: Northern Australia is one of few tropical places left on Earth in which biodiversity-and the ecological processes underpinning that biodiversity-is still relatively intact. However, scientific knowledge of that biodiversity is still in its infancy and ... ...

    Abstract Northern Australia is one of few tropical places left on Earth in which biodiversity-and the ecological processes underpinning that biodiversity-is still relatively intact. However, scientific knowledge of that biodiversity is still in its infancy and the region remains a frontier for biological discovery. The butterfly and diurnal moth assemblages of the area, and their intimate associations with vascular plants (and sometimes ants), exemplify these points.However, the opportunity to fill knowledge gaps is quickly closing: proposals for substantial development and exploitation of Australia's north will inevitably repeat the ecological devastation that has occurred in temperate southern Australia-loss of species, loss of ecological communities, fragmentation of populations, disruption of healthy ecosystem function and so on-all of which will diminish the value of the natural heritage of the region before it is fully understood and appreciated. Written by several experts in the field, the main purpose of this atlas is to compile a comprehensive inventory of the butterflies and diurnal moths of northern Australia to form the scientific baseline against which the extent and direction of change can be assessed in the future. Such information will also assist in identifying the region's biological assets, to inform policy and management agencies and to set priorities for biodiversity conservation
    Keywords Environmental sciences
    Size 1 electronic resource (462 p.)
    Publisher ANU Press
    Document type Book ; Online
    Note English ; Open Access
    HBZ-ID HT020101055
    ISBN 9781760462321 ; 1760462322
    Database ZB MED Catalogue: Medicine, Health, Nutrition, Environment, Agriculture

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  2. Article ; Online: Woodland birds and insect decline

    Braby, Michael F. / Yeates, David K. / Joseph, Leo

    Emu - Austral Ornithology. 2023 July 03, v. 123, no. 3 p.255-257

    2023  

    Abstract: The decline of woodland birds around the world is well known. There are likely to be many causal factors acting together and interacting synergistically, such as habitat fragmentation and the invasion of exotic species. Similarly, insect declines, which ... ...

    Abstract The decline of woodland birds around the world is well known. There are likely to be many causal factors acting together and interacting synergistically, such as habitat fragmentation and the invasion of exotic species. Similarly, insect declines, which likely have been occurring for some time in Australia, have been recorded around the world in recent years, especially in areas of intensive agriculture or urbanisation. Because a large proportion of woodland birds are insectivorous, we ask whether the loss of food resources could also be a driver of bird declines. We encourage more research into this.
    Keywords decline ; emus ; habitat fragmentation ; insectivores ; insects ; intensive farming ; introduced species ; ornithology ; urbanization ; woodlands ; Australia ; Birds ; declines
    Language English
    Dates of publication 2023-0703
    Size p. 255-257.
    Publishing place Taylor & Francis
    Document type Article ; Online
    ISSN 1448-5540
    DOI 10.1080/01584197.2023.2233758
    Database NAL-Catalogue (AGRICOLA)

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  3. Article ; Online: <i>Neolucia bollami</i> Eastwood, Braby & Graham, sp. nov. (Lepidoptera: Lycaenidae): speciation of a new allochronic cryptic butterfly from south-western Western Australia

    Eastwood, Rodney G. / Braby, Michael F. / Williams, Matthew R.

    Invertebrate Systematics. 2023, v. 37, no. 8 p.552-570

    2023  

    Abstract: South-western Western Australia is a global biodiversity hotspot renowned for exceptional diversity of plants and animals. The evolutionary processes that have generated this high biodiversity are not always clear, particularly for invertebrates, yet the ...

    Abstract South-western Western Australia is a global biodiversity hotspot renowned for exceptional diversity of plants and animals. The evolutionary processes that have generated this high biodiversity are not always clear, particularly for invertebrates, yet the area supports a very large number of endemic species that have diversified in situ . We use an integrative taxonomic approach based on adult and immature morphology, ecology, behaviour and molecular data to investigate the taxonomic status of a sympatric but seasonally isolated form (Neolucia agricola occidens Waterhouse & Lyell, 1914 form ‘Julimar’) of the polyommatine butterfly Neolucia agricola (Westwood, 1851) in south-western Western Australia. Our molecular dataset comprised 112 samples representing all Neolucia Waterhouse & Turner, 1905 species (100 COI 5′ sequences, 658bp, plus 12 COI 3′, tRNA Leu , COII and EF1-α sequences, 3303bp). Maximum likelihood phylogenetic analysis of the combined dataset recovered form ‘Julimar’ and N. agricola as reciprocally monophyletic, with a mean uncorrected ‘p ’ pairwise divergence of 5.77% for the ‘barcode’ region of COI . Based on this and other evidence we recognise form ‘Julimar’ as a new species, Neolucia bollami Eastwood, Braby & Graham, sp. nov. , sister to N. agricola and endemic to south-western Western Australia. As a result of these findings, we evaluated the evolutionary history of the two Neolucia species in WA and the processes that may have contributed to the diversification in sympatry or allopatry. We conclude that the multiple effect traits associated with a host shift, including host fidelity and temporal divergence, played an important role in the diversification process and in maintaining the reproductive integrity of the nascent allochronic species. ZooBank: urn:lsid:zoobank.org:act:53D9AD14-9694-4B5E-889C-A8D533E7F57D
    Keywords Lycaenidae ; adults ; allopatry ; biodiversity ; butterflies ; data collection ; indigenous species ; invertebrates ; monophyly ; new species ; statistical analysis ; sympatry ; Western Australia ; allochronic speciation ; Fabaceae ; host fidelity ; host plant shift ; integrative taxonomy ; magic traits ; modes of diversification ; South-West Australian Ecoregion ; sympatric speciation
    Language English
    Size p. 552-570.
    Publishing place CSIRO Publishing
    Document type Article ; Online
    ISSN 1445-5226
    DOI 10.1071/IS23009
    Database NAL-Catalogue (AGRICOLA)

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  4. Article ; Online: Systematics of the <i>Ogyris aenone</i> (Waterhouse, 1902) complex (Lepidoptera: Lycaenidae): threatened Australian butterflies of national conservation significance

    Beaver, Ethan P. / Braby, Michael F. / Mikheyev, Alexander S.

    Invertebrate Systematics. 2023, v. 37, no. 7 p.457-497

    2023  

    Abstract: The butterfly genus Ogyris Angas, 1847 consists of several striking but poorly resolved complexes endemic to Australia and New Guinea, many of which have an obligate association with ants. Here, we revise the systematics of the Ogyris aenone (Waterhouse, ...

    Abstract The butterfly genus Ogyris Angas, 1847 consists of several striking but poorly resolved complexes endemic to Australia and New Guinea, many of which have an obligate association with ants. Here, we revise the systematics of the Ogyris aenone (Waterhouse, 1902) complex through an integrative taxonomic approach based on molecular phylogenetic analysis, morphological examination, life histories and ecology. Mitochondrial sequence data based on concatenated cytochrome oxidase I (COI) and cytochrome b (cytb) (total of 1203bp) for 36 ingroup samples were generated and combined with sequences available on NCBI GenBank for Ogyris . Phylogenetic analysis inferred by maximum likelihood methods resolved five taxa within this group, with one taxon, Ogyris caelestia Beaver & Braby sp. nov., described as a new species and another, O. doddi stat. rev. , raised to full species. Phylogenetic relationships among the five taxa are as follows: (O. caelestia +O. aenone)+(O. ianthis +(O. iphis +O. doddi)). This revision brings the number of recognised Ogyris species to 16 and for the tribe Ogyrini to 18. This group of butterflies was found to be scarce – field samples of host trees that had the co-occurrence of both mistletoe and the appropriate attendant ant at 12 locations in eastern and northern Australia revealed low rates of occupancy (urn:lsid:zoobank.org:pub:FC258ED6-AA1F-4E11-BFE1-D0A612E4F166
    Keywords Lycaenidae ; Santalales ; butterflies ; cytochrome b ; cytochrome-c oxidase ; ecology ; invertebrates ; mitochondria ; new species ; phylogeny ; statistical analysis ; Australia ; New Guinea ; conservation status ; dolichoderine ants ; Endangered ; IUCN Red List Criteria ; Loranthaceae ; molecular phylogeny ; taxonomy ; threatened species ; Vulnerable
    Language English
    Size p. 457-497.
    Publishing place CSIRO Publishing
    Document type Article ; Online
    ISSN 1445-5226
    DOI 10.1071/IS23003
    Database NAL-Catalogue (AGRICOLA)

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  5. Article: Revised taxonomic status of Pseudalmenus barringtonensis Waterhouse, 1928 stat. rev. (Lepidoptera: Lycaenidae): uncovering Australia's greatest taxonomic fraud

    Braby, Michael F / Eastwood, Rod

    Invertebrate systematics. 2019 May 31, v. 33, no. 3

    2019  

    Abstract: The Australian endemic lycaenid Pseudalmenus H.H. Druce, 1902 occupies a unique phylogenetic position within the Theclinae–Polyommatinae assemblage. Although the genus exhibits complex geographic variation, it has long been considered to be monotypic. ... ...

    Abstract The Australian endemic lycaenid Pseudalmenus H.H. Druce, 1902 occupies a unique phylogenetic position within the Theclinae–Polyommatinae assemblage. Although the genus exhibits complex geographic variation, it has long been considered to be monotypic. However, evidence from adult phenotype (colour pattern), immature stages (final instar larva) and ecology (ant specificity) (total of 10 unique character states) as well as limited genetic data (mitochondrial COI) suggest that there are two species, namely, P. chlorinda (Blanchard, 1848) from Tasmania and the mainland of south-eastern Australia and P. barringtonensis Waterhouse, 1928 stat. rev., which is allopatric and narrowly restricted to montane areas in northern New South Wales. Examination of the ‘holotype’ male of P. barringtonensis in the Australian Museum showed that it is a fake, although the data label is genuine; the specimen is actually P. chlorinda chloris Waterhouse & Lyell, 1914 that has been modified with red paint to resemble P. barringtonensis. The true holotype is currently missing, but a specimen in the Australian Museum (registration No. K199026) that is part of the Colin W. Wyatt Theft Collection with a fictitious label is almost certainly the true holotype of P. barringtonensis. We discuss the history of this most unusual and bizarre circumstance and conclude that Wyatt stole the holotype sometime in 1946 before he returned to England (∼72 years ago) and fabricated the fake holotype as a replacement specimen. Such a fraudulent and unprecedented act surely ranks as Australia’s greatest taxonomic fraud.
    Keywords adults ; allopatry ; color ; ecology ; fraud ; geographical variation ; holotypes ; immatures ; instars ; invertebrates ; Lycaenidae ; males ; mitochondria ; phenotype ; phylogeny ; taxonomic revisions ; New South Wales ; Tasmania
    Language English
    Dates of publication 2019-0531
    Size p. 530-543.
    Publishing place CSIRO Publishing
    Document type Article
    ISSN 1447-2600
    DOI 10.1071/IS18071
    Database NAL-Catalogue (AGRICOLA)

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  6. Article ; Online: The Immature Stages, Biology, and Phylogenetic Relationships of Rotunda rotundapex (Lepidoptera: Bombycidae).

    Lin, Rung-Juen / Braby, Michael F / Hsu, Yu-Feng

    Journal of insect science (Online)

    2019  Volume 19, Issue 2

    Abstract: The life history, morphology, and biology of the immature stages and phylogenetic relationships of Rotunda rotundapex (Miyata & Kishida, 1990) are described and illustrated for the first time. The species is univoltine: eggs hatch in spring (March or ... ...

    Abstract The life history, morphology, and biology of the immature stages and phylogenetic relationships of Rotunda rotundapex (Miyata & Kishida, 1990) are described and illustrated for the first time. The species is univoltine: eggs hatch in spring (March or April) and the life cycle from egg to adult is completed in about 3 wk, with larvae developing rapidly on young leaves of the host plants, Morus australis and to a lesser extent Broussonetia monoica (Moraceae), and adults emerging in April-May. Eggs are laid in clusters on twigs of the host plant, are covered by scales during female oviposition, and remain in diapause for the remainder of the year (i.e., for 10-11 mo). Larvae (all instars) are unique among the Bombycidae in that they lack a horn on abdominal segment 8. A strongly supported molecular phylogeny based on six genes (5.0 Kbp: COI, EF-1α, RpS5, CAD, GAPDH, and wgl) representing seven genera of Bombycinae from the Old World revealed that Rotunda is a distinct monotypic lineage sister to Bombyx. This phylogenetic position, together with morphological data of the immature stages (egg and larval chaetotaxy), supports the current systematic classification in which the species rotundapex has been placed in a separate genus (Rotunda) from Bombyx in which it was previously classified.
    MeSH term(s) Animals ; Female ; Life Cycle Stages ; Moraceae ; Moths/classification ; Moths/genetics ; Moths/growth & development ; Moths/physiology ; Phylogeny
    Language English
    Publishing date 2019-04-06
    Publishing country United States
    Document type Journal Article
    ZDB-ID 2049098-7
    ISSN 1536-2442 ; 1536-2442
    ISSN (online) 1536-2442
    ISSN 1536-2442
    DOI 10.1093/jisesa/iez025
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  7. Article: Evolution and losses of spines in slug caterpillars (Lepidoptera: Limacodidae).

    Lin, Yu-Chi / Lin, Rung-Juen / Braby, Michael F / Hsu, Yu-Feng

    Ecology and evolution

    2019  Volume 9, Issue 17, Page(s) 9827–9840

    Abstract: Larvae of the cosmopolitan family Limacodidae, commonly known as "slug" caterpillars, are well known because of the widespread occurrence of spines with urticating properties, a morpho-chemical adaptive trait that has been demonstrated to protect the ... ...

    Abstract Larvae of the cosmopolitan family Limacodidae, commonly known as "slug" caterpillars, are well known because of the widespread occurrence of spines with urticating properties, a morpho-chemical adaptive trait that has been demonstrated to protect the larvae from natural enemies. However, while most species are armed with rows of spines ("nettle" caterpillars), slug caterpillars are morphologically diverse with some species lacking spines and thus are nonstinging. It has been demonstrated that the evolution of spines in slug caterpillars may have a single origin and that this trait is possibly derived from nonstinging slug caterpillars, but these conclusions were based on limited sampling of mainly New World taxa; thus, the evolution of spines and other traits within the family remains unresolved. Here, we analyze morphological variation in slug caterpillars within an evolutionary framework to determine character evolution of spines with samples from Asia, Australia, North America, and South America. The phylogeny of the Limacodidae was reconstructed based on a multigene dataset comprising five molecular markers (5.6 Kbp: COI, 28S, 18S, EF-1α, and wingless) representing 45 species from 40 genera and eight outgroups. Based on this phylogeny, we infer that limacodids evolved from a common ancestor in which the larval type possessed spines, and then slug caterpillars without spines evolved independently multiple times in different continents. While larvae with spines are well adapted to avoiding generalist predators, our results imply that larvae without spines may be suited to different ecological niches. Systematic relationships of our dataset indicate six major lineages, several of which have not previously been identified.
    Language English
    Publishing date 2019-08-05
    Publishing country England
    Document type Journal Article
    ZDB-ID 2635675-2
    ISSN 2045-7758
    ISSN 2045-7758
    DOI 10.1002/ece3.5524
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  8. Article: The taxonomy and ecology of Delias aestiva Butler, 1897 stat. rev. (Lepidoptera: Pieridae), a unique mangrove specialist of Euphorbiaceae from northern Australia

    Braby, Michael F

    Biological journal of the Linnean Society. 2012 Nov., v. 107, no. 3

    2012  

    Abstract: Taxonomic investigations of the Delias mysis (Fabricius, 1775) complex from northern Australia indicate two additional species in the Australian fauna: Delias aestiva Butler, 1897 stat. rev. and Delias lara (Boisduval, 1836). The latter species, which is ...

    Abstract Taxonomic investigations of the Delias mysis (Fabricius, 1775) complex from northern Australia indicate two additional species in the Australian fauna: Delias aestiva Butler, 1897 stat. rev. and Delias lara (Boisduval, 1836). The latter species, which is illustrated from Australia for the first time, was until recently known under the name Delias mysis onca Fruhstorfer, 1910. Evidence from adult morphology (male genitalia), colour pattern of the adult and immature stages, behaviour, and ecology indicates substantial phenotypic divergence between D. aestiva and D. mysis. Within Australian limits, all three taxa are allopatric: D aestiva is endemic to the Top End, Northen Territory, D. mysis mysis is restricted to northern and north‐eastern Queensland, whereas Delias lara lara is known only from three specimens from the Torres Strait islands, Queensland. Delias aestiva is perhaps the most remarkable member of the complex and indeed the genus, breeding in tropical mangrove habitats in coastal estuarine areas where the larvae specialize on mature foliage of the tree Excoecaria ovalis Endl. (Euphorbiaceae). This host preference is novel given the general tendency of Delias to feed on hemiparasitic plants in the order Santalales (Loranthaceae, Santalaceae and Viscaceae). Under laboratory conditions, however, larvae successfully completed development on the mistletoe genera Amyema, Dendrophthoe and Decaisnina (all Loranthaceae) with no significant reduction in larval survival. These findings, together with phylogenetic hypotheses of the Aporiina and Delias, indicate a recent evolutionary host shift from Loranthaceae to Euphorbiaceae. The foliage of Excoecaria produces toxic latex, which is composed of a variety of secondary plant compounds, including diterpenoids, triterpenoids, alkaloids and phorbol esters. The mechanism of detoxification has not been established, although the larvae of D. aestiva are gregarious, regurgitate fluid as part of their chemical defence, and the adults are highly aposematic. Adults are seasonal, being chiefly on the wing during the cooler dry season; during the wet season, the larval food plant is seasonally deciduous and it is suspected that the butterfly undergoes pupal diapause. The cryptically coloured green pupa and tendency to pupate singly in concealed situations of D. aestiva are highly unusual traits among Delias and are hypothesized to be adaptive responses associated with pupal diapause during the wet season. The unique habitat association, novel food plant specialization, and restricted distribution of D. aestiva emphasizess the biogeographical peculiarities of northern Australia, especially patterns of historical (vicariant) differentiation between the Top End and Cape York Peninsula within the Australian Monsoon Tropics. © 2012 The Linnean Society of London, Biological Journal of the Linnean Society, 2012, 107, 697–720.
    Keywords Amyema ; Dendrophthoe ; Excoecaria ; Pieridae ; Santalaceae ; alkaloids ; biogeography ; breeding ; butterflies ; color ; diapause ; diterpenoids ; dry season ; esters ; fauna ; food plants ; habitats ; host preferences ; imagos ; immatures ; islands ; larvae ; latex ; leaves ; male genitalia ; monsoon season ; novel foods ; phenotypic variation ; phylogeny ; pupae ; taxonomy ; toxicity ; trees ; triterpenoids ; tropics ; wet season ; Queensland
    Language English
    Dates of publication 2012-11
    Size p. 697-720.
    Publishing place Published for the Linnean Society of London by Blackwell [etc.]
    Document type Article
    ZDB-ID 1461865-5
    ISSN 1095-8312 ; 0024-4066
    ISSN (online) 1095-8312
    ISSN 0024-4066
    DOI 10.1111/j.1095-8312.2012.01970.x
    Database NAL-Catalogue (AGRICOLA)

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  9. Article: Invertebrate by-catch from vertebrate pitfall traps can be useful for documenting patterns of invertebrate diversity

    Oberprieler, Stefanie K / Andersen, Alan N / Braby, Michael F

    Journal of insect conservation. 2019 June, v. 23, no. 3

    2019  

    Abstract: There is a pressing need to develop simplified sampling protocols that allow invertebrates to be routinely incorporated into terrestrial faunal surveys for informing conservation planning. This study assesses the usefulness of sampling invertebrate by- ... ...

    Abstract There is a pressing need to develop simplified sampling protocols that allow invertebrates to be routinely incorporated into terrestrial faunal surveys for informing conservation planning. This study assesses the usefulness of sampling invertebrate by-catch from standard vertebrate bucket pitfall traps for documenting spatial patterns of terrestrial invertebrates. We compare among-site (N = 78) patterns of species richness and composition of ten invertebrate families (comprising ants, beetles and spiders) captured in vertebrate bucket traps with those captured in two different arrays of invertebrate-specific pitfall traps. For three families (Formicidae, Carabidae and Lycosidae) patterns of richness and composition captured in the vertebrate traps were comparable with those captured in the invertebrate-specific trap arrays. Thus, in some cases, vertebrate traps appeared to be as useful in detecting patterns of invertebrate diversity as were invertebrate-specific traps. Our findings show that sampling invertebrate by-catch from vertebrate bucket traps can be a reliable and robust simplified protocol for documenting biodiversity patterns for some key groups of terrestrial invertebrates. This simplified protocol can take terrestrial invertebrates out of the ‘too-hard basket’ for biodiversity assessment and monitoring, breaking the positive-feedback loop that currently maintains ignorance of invertebrate diversity and distribution and that prevents their inclusion in conservation planning.
    Keywords bycatch ; Carabidae ; fauna ; Formicidae ; invertebrates ; Lycosidae ; monitoring ; pitfall traps ; planning ; species richness ; surveys ; vertebrates
    Language English
    Dates of publication 2019-06
    Size p. 547-554.
    Publishing place Springer International Publishing
    Document type Article
    ZDB-ID 1395198-1
    ISSN 1572-9753 ; 1366-638X
    ISSN (online) 1572-9753
    ISSN 1366-638X
    DOI 10.1007/s10841-019-00143-z
    Database NAL-Catalogue (AGRICOLA)

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    Z 7609: Show issues

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  10. Article: Discovery of Specialist Beech-Feeding Underwing Moths From Taiwan (Lepidoptera: Erebidae: Catocalinae) and Its Implication to Biodiversity Conservation of Taiwan Beech Forests

    Hsu, Yu-Feng / Wang, Li-Hao / Huang, Chia-Lung / Braby, Michael F / Lin, Wen-Jie / Lin, Rung-Juen / Hsu, Yu-Ming

    Annals of the Entomological Society of America. 2021 Feb. 5, v. 114, no. 3

    2021  

    Abstract: Deciduous Beech (Fagus spp.) forests have a highly disjunct distribution in the Northern Hemisphere, with greatest diversity in eastern Asia. Although Fagus supports a rich phytophagous insect fauna, the diversity, composition, and host specialization of ...

    Abstract Deciduous Beech (Fagus spp.) forests have a highly disjunct distribution in the Northern Hemisphere, with greatest diversity in eastern Asia. Although Fagus supports a rich phytophagous insect fauna, the diversity, composition, and host specialization of insects associated with these trees in Asia are less well known compared with Europe and North America. For instance, two species of Catocala moths, both considered endemic to Japan, were previously known as the only beech-feeding specialists of this genus. However, two Catocala species were recently discovered from Taiwan during a survey of phytophagous insects on Taiwan Beech Fagus hayatae, a threatened plant. Identification of these two species of moths was determined by mtDNA (COI barcodes), adult morphology, including wing pattern and genitalia, and biology. Based on these multiple sources of evidence, we conclude that one species represents an undescribed species and the other a new subspecies of a species previously known only from mainland China. The taxonomic treatments in the present work include Catocala seiohbo sanctocula Hsu & Huang, subsp. nov., C. nimbosa Hsu & Wang, sp. nov. and C. nubila ohshimai, stat. nov. In Taiwan, Catocala spp. occur mainly in large, undisturbed patches of Taiwan Beech forest and are codependent on F. hayatae. Thus, they are not only considered to be at risk of co-extinction, but may serve as potential indicator species to monitor the extent and health of this threatened ecological community.
    Keywords Erebidae ; Fagus ; Japan ; adults ; biodiversity conservation ; ecological communities ; fauna ; forests ; genitalia ; indicator species ; new subspecies ; phytophagous insects ; risk ; surveys ; threatened species ; China ; Europe ; North America ; Taiwan
    Language English
    Dates of publication 2021-0205
    Size p. 338-354.
    Publishing place Entomological Society of America
    Document type Article
    Note NAL-AP-2-clean
    ZDB-ID 338-4
    ISSN 0013-8746
    ISSN 0013-8746
    DOI 10.1093/aesa/saaa062
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