Displaying publications 1 - 20 of 53 in total

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  1. Beck J, Holloway JD, Khen CV, Kitching IJ
    Am Nat, 2012 Sep;180(3):E64-74.
    PMID: 22854086 DOI: 10.1086/666982
    Tropical beta diversity, and particularly that of herbivorous insects in rainforests, is often considered to be enormous, but this notion has recently been challenged. Because tropical beta diversity is highly relevant to our view on biodiversity, it is important to gain more insights and to resolve methodological problems that may lead to contradictions in different studies. We used data on two ecologically distinct moth families from Southeast Asia and analyzed separately the contribution of beta components to overall species richness at three spatial scales. Observed diversity partitions were compared under different types of null models. We found that alpha diversity was lower than expected on the basis of null models, whereas hierarchical beta components were larger than expected. Beta components played a significant role in shaping gamma diversity, and their contribution can be high (multiplicative beta >5). We found a reduction in beta components when comparing primary forests to agricultural sites (cf. "biotic homogenization"), but even in these habitats, beta components were still substantial. Our analyses show that beta components do play an important role in our data on tropical herbivorous insects and that these results are not attributable to lumping different habitats when sampling environmental gradients.
    Matched MeSH terms: Moths*
  2. Volynkin AV, Ivanova MS
    Zootaxa, 2021 Mar 03;4938(5):zootaxa.4938.5.7.
    PMID: 33756963 DOI: 10.11646/zootaxa.4938.5.7
    Cyana Walker, 1854 is one of the most species-rich Erebiidae genera within the tribe Lithosiini Billberg of the subfamily Arctiinae Leach. The genus is widespread from Sub-Saharan Africa and Madagascar through southern and eastern Asia to New Guinea and Australia with a diversity hot spot in South East Asia. A striking species with contrasting red and orange wing pattern, C. bellissima (Moore, 1878) was described from northern India and recorded from the Himalayas, China and Indochina (Fang 2000; Černý Pinratana 2009; Singh et al. 2020). Another closely related species, C. stresemanni (Rothschild, 1936) (= bellissima inouei Kishida, 1993) is distributed in the Peninsular Malaysia (Rothschild 1936; Kishida 1993; Bucsek 2012). During examination of extensive unsorted Lithosiini materials housed in the MWM/ZSM and the private collection of the senior author, a series of peculiar specimens from southern Vietnam provisionally identified as 'C. bellissima' was found. These specimens, however, display certain external differences from other populations of C. bellissima and C. stresemanni, suggesting the presence of a further taxon related to C. bellissima. The examination of the male and the female genitalia of the southern Vietnamese specimens has confirmed their specific distinctness and they are described in this paper as a new species.
    Matched MeSH terms: Moths*
  3. Volynkin AV, ČernÝ K, Ivanova MS
    Zootaxa, 2018 Oct 08;4497(1):82-98.
    PMID: 30313666 DOI: 10.11646/zootaxa.4497.1.5
    The Cyana bianca (Walker, 1856) species-group is revised. Cyana bianca malayana Bucsek, 2012 is upgraded to the species level. A new species, C. indosinica Volynkin Černý, sp. nov. (China: Yunnan, Thailand, Laos, Vietnam) and a new subspecies, C. quadripartita vieta Volynkin Černý, ssp. nov. (Vietnam) are described.
    Matched MeSH terms: Moths*
  4. Volynkin AV, Černý K, Huang SY
    Zootaxa, 2019 Jun 17;4618(1):zootaxa.4618.1.1.
    PMID: 31716326 DOI: 10.11646/zootaxa.4618.1.1
    The Barsine hypoprepioides (Walker, 1862) species-group is reviewed. Forty seven species and one subspecies belong to the species-group. Among them, fifteen species and one subspecies are new for science and described in the present paper: B. amoenissima sp. n. (Myanmar), B. selene sp. n. (Thailand and Laos), B. cao sp. n. (Thailand, Laos and Vietnam), B. speideli sp. n. (SE China, Thailand, Laos, Cambodia and Vietnam), B. mesomene sp. n. (NE India, Myanmar, China, Thailand, Laos and Vietnam), B. pandeia sp. n. (Vietnam), B. karenkensis wushipheri ssp. n. (S Taiwan), B. euryphaessa sp. n. (Vietnam), B. ivanovamariae sp. n. (Vietnam and SE China), B. eos sp. n. (Thailand), B. mene sp. n. (Thailand), B. syntypicoida sp. n. (Malaysia and Indonesia), B. dubatolovi sp. n. (The Philippines), B. visaya sp. n. (The Philippines), B. nemea sp. n. (The Philippines) and B. kishidai sp. n. (The Philippines). Eight new combinations are established: B. parameia (Rothschild, 1913), comb. n. B. takamukui (Matsumura, 1927), comb. n., B. karenkensis (Matsumura, 1930), comb. n., B. rhipiptera (Wileman West, 1928), comb. n., B. chi (Roepke, 1946), comb. nov., B. salakia (Schaus, 1922), comb. n., B. marginis (Fang, 1991), comb. nov. and B. dentata (Wileman, 1910), comb. nov. The lectotype is designated for Lithosia hypoprepioides Walker, 1862. Adults, male and female genitalia of all species are illustrated.
    Matched MeSH terms: Moths*
  5. Han HL, Kononenko VS
    Zootaxa, 2023 Jan 10;5227(5):549-567.
    PMID: 37044671 DOI: 10.11646/zootaxa.5227.5.3
    The genus Tolpia Walker 1863 is reviewed. Five new species: Tolpia ysbaei sp. n., T. qiongensis sp. n., T. subhainanensis sp. n., T. kohkonga sp. n. and T. michaeli sp. n. are described from South China, Cambodia and Malaysia. New collecting data for other species treated in the article are presented. Among them three species, Tolpia bhutani Fibiger, 2007, T. unguis Fibiger, 2007 and T. sikkimi Fibiger, 2007, are reported from China for the first time and T. multiprocessa Fibiger, 2008 is first reported from Cambodia. Keys for identifying species in the odor, unguis, peniculus, conscitulana and crispus species-groups are presented. The checklist of the genus Tolpia comprises 35 species including newly described species and four incertae sedis.
    Matched MeSH terms: Moths*
  6. Park KT, Heppner JB
    Zootaxa, 2023 Mar 22;5256(5):434-456.
    PMID: 37045213 DOI: 10.11646/zootaxa.5256.5.2
    Sumatra is the second largest island that is fully within Indonesian territory, but it is one of the most poorly explored areas for species diversity of the family Lecithoceridae, with less than 10 known species. In the present paper, six new species of Thubana Walker, 1864 (T. sumatrana sp. nov., T. spiniosa sp. nov., T. lata sp. nov., T. prapatensis sp. nov., T. siantarensis sp. nov., and T. selenisa sp. nov.) and three new species of Torodora Meyrick (T. diehliella sp. nov., T. exilivalvata sp. nov., and T. squariella sp. nov.) are described from Sumatra. In addition, Thubana ochracea Park & Abang, 2005, which was described from Sarawak, Malaysia, is reported for the first time from Sumatra. Illustrations of adults and genitalia of all new species are given. A list of the known species of the subfamily Torodorinae from Indonesia is provided.
    Matched MeSH terms: Moths*
  7. Joshi R, Kirti JS, Singh N
    Zootaxa, 2016 Oct 28;4179(1):128-132.
    PMID: 27811698 DOI: 10.11646/zootaxa.4179.1.10
    Genus Nishada Moore (1878) was proposed as a monotypic genus, under subfamily Lithosiinae, family Lithosiidae (now Lithosiini), including only Nishada flabrifera Moore (1878) from Calcutta (now as Kolkata), India. The genus is distributed from China to India, Thailand, Malaysia and up to Australia. The Indian fauna of Nishada is reported from North-East Himalayas, West Bengal (Kolkata) and South India. Members of this genus are unmarked, yellow to brown with short and broad wings. Genus Nishada has been taxonomically dealt by many authors but awaits thorough revision.

    HISTORY: Hampson (1900) included a total of ten species: Nishada niveola Hampson, 1900, Nishada syntomioides (Walker, 1862), Nishada impervia (Walker, 1865), Nishada marginalis (Felder 1875), Nishada tula Swinhoe, 1900, Nishada nodicornis (Walker 1862), Nishada rotundipennis (Walker 1862), Nishada flabrifera Moore, 1878, Nishada sambara (Moore 1859) and Nishada xantholoma (Snellen 1879). Swinhoe (1902) and Hampson (1911) then described two new species, Nishada melanistis and Nishada brunneipennis, respectively, followed by Rothschild (1912, 1913) who described a further seven new species, Nishada brunnea, Nishada flavens, Nishada testacea, Nishada griseoflava, Nishada fuscofascia, Nishada louisiadensis and Nishada aurantiaca, bringing the total to 19 species. Strand (1922) catalogued only 13 of these species in Nishada, transferring N. brunnea and N. fuscofascia to genus Scoliacma Meyrick (1886); N. testacea, N.griseoflava and N. louisiadensis Rothschild to Eilema Hübner (1819) and synonymising N. flavens with N. sambara. Next, Matsumura (1927) described N. formosibia, followed by two more species, N. aureocincta Debauche, 1938 and N. benjaminea Roepke, 1946. Holloway (2001) synonymised N. nodicornis with N. rotundipennis and added the description of a new subspecies, Nishada chilomorpha adunca Holloway, 2001 from Borneo, indicating a distributional range as far as North East India. The nominotypical subspecies, N. c. chilomorpha was suggested to be restricted to its type locality of Java. Bucsek (2012) added Nishada cameronensis, Dubatolov & Bucsek (2013) described Nishada schintlmeisteri and Bucsek (2016) described Nishada temenggora. So, at present, Nishada comprises19 species, of which three are known from India (Singh et al. 2014). Herein, we describe one further species, Nishada pseudochilomorpha Joshi & Singh sp. nov., from Jatinga (Assam, India). In addition, new distributional records are reported for N. flabrifera.

    Matched MeSH terms: Moths/anatomy & histology*; Moths/classification*
  8. Wang S, Du Z, Li H
    Zootaxa, 2013;3669:401-55.
    PMID: 26312350
    The genus Proinalactis Meyrick, 1908 is reviewed in Southeast Asia. Twenty-seven new species are described based on the specimens collected in Malaysia, Thailand, Brunei, Burma, Philippines. The new species include P. alveiformis sp. nov., P. angusta sp. nov., P. bruneiensis sp. nov., P. conicispinalis sp. nov., P. ellipsoidea sp. nov., P. exiliprocessa sp. nov., P. extumida sp. nov., P. fascisetacea sp. nov., P. flagellaris sp. nov., P. foraininulata sp. nov., P. fortijuxtalis sp. nov., P. lancea sp. nov., P. latuncata sp. nov., P. longisaccata sp. nov., P. lophacantha sp. nov., P. medispinata sp. nov., P. palmifolia sp. nov., P. pectinifera sp. nov., P.sectoralis sp. nov., P. semiovata sp. nov., P. sinualis sp. nov., P. spinosicostalis sp. nov., P. strena sp. nov., P. superimposita sp. nov., P. truncatapicalis sp. nov., P. undulata sp. nov. and P. vulvida sp. nov. Promalactis parasuzukiella Wang, 2006 and P. simniliflora Wang, 2006 are recorded from Southeast Asia for the first time. Three species described by Lvovsky are fully redescribed. Images of adults and genitalia are provided, along with a check list of 71 species from Southeast Asia.
    Matched MeSH terms: Moths/anatomy & histology*; Moths/classification*; Moths/physiology
  9. Volynkin AV, Černý K
    Zootaxa, 2019 Sep 12;4668(4):zootaxa.4668.4.7.
    PMID: 31716610 DOI: 10.11646/zootaxa.4668.4.7
    The Barsine inflexa and the B. flavodiscalis species-groups are reviewed. Six new species are described: B. victoria Volynkin Černý, sp. nov. (North West Myanmar and North East India), B. kanchenjunga Volynkin Černý, sp. nov. (North East India), B. dejeani Volynkin Černý, sp. nov. (South West China: Sichuan), B. thagyamin Volynkin Černý, sp. nov. (North Myanmar), B. hreblayi Volynkin Černý, sp. nov. (North Thailand) and B. siberuta Volynkin Černý, sp. nov. (Indonesia: Siberut Island). Adults, male and female genitalia of all species are illustrated.
    Matched MeSH terms: Moths*
  10. Volynkin AV, Černý K
    Zootaxa, 2019 Apr 17;4586(2):zootaxa.4586.2.8.
    PMID: 31716134 DOI: 10.11646/zootaxa.4586.2.8
    Three new species of the genus Cyana Walker, 1854 are described: C. artemis sp. n. (southeastern China, Thailand, Laos, Vietnam), C. butyracea sp. n. (Vietnam) and C. kucheri sp. n. (Vietnam). The first two species are related to the Himalayan C. moelleri (Elwes, 1890) and the Indochinese C. intercomma Černý, 2009. Despite the external similarity of C. kucheri sp. n. to C. moelleri and its allies, by the genitalia structure this species is related to C. gazella (Moore, 1872). Adults and male and female genitalia of new and related species are illustrated.
    Matched MeSH terms: Moths*
  11. Owada M, Wu S
    Zootaxa, 2019 Aug 09;4652(3):zootaxa.4652.3.13.
    PMID: 31716865 DOI: 10.11646/zootaxa.4652.3.13
    Asian herminiine moths of the Herminia decipiens complex are revised and five allopatric species are recognized, i.e. Herminia decipiens (Hampson, 1898) in Nilgiri Hills, Khasi Hills, South China, Indochina, Malay Peninsula, H. terminalis (Wileman, 1915) in Taiwan, H. yuksam sp. nov. in East Nepal, Sikkim, H. borneo sp. nov. in Borneo and H. amamioshima sp. nov. in Amami-oshima Is., Shimo-Koshikijima Is. and South Kyushu (Kagoshima). Key to all species is given.
    Matched MeSH terms: Moths*
  12. Lin PA, Chen Y, Chaverra-Rodriguez D, Heu CC, Zainuddin NB, Sidhu JS, et al.
    New Phytol, 2021 Apr;230(2):793-803.
    PMID: 33459359 DOI: 10.1111/nph.17214
    Herbivore-induced plant volatiles (HIPVs) are widely recognized as an ecologically important defensive response of plants against herbivory. Although the induction of this 'cry for help' has been well documented, only a few studies have investigated the inhibition of HIPVs by herbivores and little is known about whether herbivores have evolved mechanisms to inhibit the release of HIPVs. To examine the role of herbivore effectors in modulating HIPVs and stomatal dynamics, we conducted series of experiments combining pharmacological, surgical, genetic (CRISPR-Cas9) and chemical (GC-MS analysis) approaches. We show that the salivary enzyme, glucose oxidase (GOX), secreted by the caterpillar Helicoverpa zea on leaves, causes stomatal closure in tomato (Solanum lycopersicum) within 5 min, and in both tomato and soybean (Glycine max) for at least 48 h. GOX also inhibits the emission of several HIPVs during feeding by H. zea, including (Z)-3-hexenol, (Z)-jasmone and (Z)-3-hexenyl acetate, which are important airborne signals in plant defenses. Our findings highlight a potential adaptive strategy where an insect herbivore inhibits plant airborne defenses during feeding by exploiting the association between stomatal dynamics and HIPV emission.
    Matched MeSH terms: Moths*
  13. Barber JR, Kawahara AY
    Biol Lett, 2013 Aug 23;9(4):20130161.
    PMID: 23825084 DOI: 10.1098/rsbl.2013.0161
    Bats and moths have been engaged in aerial warfare for nearly 65 Myr. This arms race has produced a suite of counter-adaptations in moths, including bat-detecting ears. One set of defensive strategies involves the active production of sound; tiger moths' ultrasonic replies to bat attack have been shown to startle bats, warn the predators of bad taste and jam their biosonar. Here, we report that hawkmoths in the Choerocampina produce entirely ultrasonic sounds in response to tactile stimulation and the playback of biosonar attack sequences. Males do so by grating modified scraper scales on the outer surface of the genital valves against the inner margin of the last abdominal tergum. Preliminary data indicate that females also produce ultrasound to touch and playback of echolocation attack, but they do so with an entirely different mechanism. The anti-bat function of these sounds is unknown but might include startling, cross-family acoustic mimicry, warning of unprofitability or physical defence and/or jamming of echolocation. Hawkmoths present a novel and tractable system to study both the function and evolution of anti-bat defences.
    Matched MeSH terms: Moths/anatomy & histology; Moths/physiology*
  14. Wu CH, Holloway JD, Hill JK, Thomas CD, Chen IC, Ho CK
    Nat Commun, 2019 10 10;10(1):4612.
    PMID: 31601806 DOI: 10.1038/s41467-019-12655-y
    Both community composition changes due to species redistribution and within-species size shifts may alter body-size structures under climate warming. Here we assess the relative contribution of these processes in community-level body-size changes in tropical moth assemblages that moved uphill during a period of warming. Based on resurvey data for seven assemblages of geometrid moths (>8000 individuals) on Mt. Kinabalu, Borneo, in 1965 and 2007, we show significant wing-length reduction (mean shrinkage of 1.3% per species). Range shifts explain most size restructuring, due to uphill shifts of relatively small species, especially at high elevations. Overall, mean forewing length shrank by ca. 5%, much of which is accounted for by species range boundary shifts (3.9%), followed by within-boundary distribution changes (0.5%), and within-species size shrinkage (0.6%). We conclude that the effects of range shifting predominate, but considering species physiological responses is also important for understanding community size reorganization under climate warming.
    Matched MeSH terms: Moths/anatomy & histology; Moths/physiology*
  15. Willott SJ
    Philos Trans R Soc Lond B Biol Sci, 1999 Nov 29;354(1391):1783-90.
    PMID: 11605621
    The effects of selective logging on the diversity and species composition of moths were investigated by sampling from multiple sites in primary forest, both understorey and canopy, and logged forest at Danum Valley, Sabah, Malaysia. The diversity of individual sites was similar, although rarefied species richness of logged forest was 17% lower than for primary forest (understorey and canopy combined). There was significant heterogeneity in faunal composition and measures of similarity (NESS index) among primary forest understorey sites which may be as great as those between primary understorey and logged forest. The lowest similarity values were between primary forest understorey and canopy, indicating a distinct canopy fauna. A number of species encountered in the logged forest were confined to, or more abundant in, the canopy of primary forest. Approximately 10% of species were confined to primary forest across a range of species' abundances, suggesting this is a minimum estimate for the number of species lost following logging. The importance of accounting for heterogeneity within primary forest and sampling in the canopy when measuring the effects of disturbance on tropical forest communities are emphasized.
    Matched MeSH terms: Moths*
  16. Jamian S, Norhisham A, Ghazali A, Zakaria A, Azhar B
    Insect Sci, 2017 Apr;24(2):285-294.
    PMID: 26712127 DOI: 10.1111/1744-7917.12309
    Integrated pest management (IPM) is widely practiced in commercial oil palm agriculture. This management system is intended to minimize the number of attacks by pest insects such as bagworms on crops, as well as curb economic loss with less dependency on chemical pesticides. One practice in IPM is the use of biological control agents such as predatory insects. In this study, we assessed the response of predatory natural enemies to pest outbreak and water stress, and document the habitat associations of potential pest predators. The abundances of 2 predatory insect species, namely Sycanus dichotomus and Cosmolestes picticeps (Hemiptera: Reduviidae), were compared bagworm outbreak sites and nonoutbreak sites within oil palm plantations. We also examined habitat characteristics that influence the abundances of both predatory species. We found that the abundance of C. picticeps was significantly higher in bagworm outbreak sites than in nonoutbreak sites. There were no significant differences in the abundance of S. dichotomus among outbreak and non-outbreak sites. Both species responded negatively to water stress in oil palm plantations. Concerning the relationship between predatory insect abundance and in situ habitat quality characteristics, our models explained 46.36% of variation for C. picticeps and 23.17% of variation for S. dichotomus. Both species of predatory insects thrived from the planting of multiple beneficial plants in oil palm plantations. The results suggest that C. picticeps can be used as a biological agent to control bagworm populations in oil palm plantations, but S. dichotomus has no or little potential for such ecosystem service.
    Matched MeSH terms: Moths*
  17. Yu S, Park KT, Wang S
    Zootaxa, 2019 Jun 18;4619(1):zootaxa.4619.1.7.
    PMID: 31716319 DOI: 10.11646/zootaxa.4619.1.7
    Seven new species of the genus Deltoplastis Meyrick are described: D. acutangulata Wang et Yu, sp. nov., D. anatoliana Wang et Park, sp. nov., D. multidentalis Wang et Yu, sp. nov. and D. similihoristis Wang et Yu, sp. nov. from China; D. aculeata Wang et Yu, sp. nov. and D. spatuliunca Wang et Yu, sp. nov. from Malaysian Borneo; and D. ovidiscalis Park et Wang, sp. nov. from Vietnam. Deltoplastis horistis (Meyrick, 1910) is newly recorded in China and its female is described for the first time. Images of adults and genitalia of the new species are provided.
    Matched MeSH terms: Moths*
  18. Bae YS, Bayarsaikhan U
    Zootaxa, 2019 Apr 17;4586(2):zootaxa.4586.2.13.
    PMID: 31716139 DOI: 10.11646/zootaxa.4586.2.13
    Halone Walker (1854) is one of the small genera within the tribe Lithosiini of subfamily Arctiinae (Erebidae). It was established for its type species, Halone sobria Walker, 1854, from Australia. The genus Halone is distributed in Southeast Asia (total 14 spp.: 3 spp. from India; 1 sp. from Thailand; 9 spp. from Malay Peninsula; 1 sp. from Papua New Guinea) to Australia (total 14 spp.), with 28 species described by several authors in various genera: Halone sobria Walker (1854), Setina sinuata Wallengren (1860), Pitane sejuncta Felder Rogenhofer (1875), Mosoda consolatrix Rosenstock (1885), Mosoda servilis and M. ophiodes Meyrick (1886), Sorocostia interspersa Lucas (1890), Halone coryphoea and H. ebaea Hampson (1914), Eurypepla pteridaula Turner (1922), Halone epiopsis and H. prosenes Turner (1940), Psapharacis camptopleura and Scaphidriotis xylogramma Turner (1899) from Australia; Halone furcifascia Hampson (1914) from Papua New Guinea; Halone ariadna, H. bifornica, H. dissimulata, H. oblimarea, H. pillea, H. iuguma, H. marketae, H. solitus and H. viktorai Bucsek (2012; 2014) from Malay Peninsula; Halone straturata Černý (2009) from Thailand; Aemene diffusifascia Swinhoe (1896), Aemene flavescens Hampson (1898), and Halone flavinigra Hampson (1907) from India. The genus is cataloged in Poole (1989) and Edwards (1996).
    Matched MeSH terms: Moths*
  19. Pellinen MJ, Solovyev AV
    Zootaxa, 2015 Jun 02;3964(2):294-7.
    PMID: 26249438 DOI: 10.11646/zootaxa.3964.2.9
    Canon Solovyev is a small genus belonging to the Parasa-complex of Limacacodidae. It is distributed from northern India to the Malayan Peninsula. The genus previously included two species: C. punica (Herrich-Schäffer) from the Indian region and C. eos Solovyev from Nepal. Canon punica is recorded from China (Yunnan), northern Thailand and Malaysia, but specimens from northern Thailand and probably those from China (Yunnan) represent a new species that is described herein: C. sripanae Pellinen and Solovyev, new species. Externally, C. sripanae is similar to other Canon species, but it differs from punica and eos in hindwing color and male genitalia. The moths studied were collected at UV and mixed lights. Genitalia of the male holotype and a male and female paratypes are figured. Nomenclature of this study is based on Solovyev (2014).
    Matched MeSH terms: Moths/anatomy & histology; Moths/classification*; Moths/growth & development
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