DOCSLIB.ORG

Beginners Guide to Macro Moths

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text

Load more

NZ moths are special many whakatauki written about the Why we need to trap the moths? Why do we need to study moths? More than 86% of the known moths caterpillar and its capacity to eat. Who benefits from Moths are mainly out at night, so Moths breed fast and have lots of in NZ are endemic. They only occur studying moths? most people don’t see how many offspring. There are lots of different in NZ so we have to look after A more recent pest is the codling there are or what’s happening moth species playing different roles them.. moth (Cydia pomonella). Introduced to them. Unfortunately we need in the ecosystem. Moths have links Beginners’ Guide to Society from Europe, it attacks apples, You & I specimens for identification. to lots of other species (e.g. plants, Macro Moths Why are moths important? pears, walnuts, and other fruit. birds, introduced pests, other Moths are a key part of the wider Nature Why we need standardised data? invertebrates). Moths have a bad reputation for ecosystem and they sit in the If we all use the same type of trap eating clothes, especially natural centre of a complex food web. The (e.g. a Heath Moth Trap) we can If something is changing in the Ngā Paihau fibres like wool, silk, and fur. In caterpillars are herbivores eating a compare data from different places ecosystem, moths are amongst reality there are very few moth range of native plants. and over time. With standardised the first creatures to respond. They species whose caterpillars eat Education information we can all work are likely to be good indicators of clothes. You can easily solve this Stories Where to get more information & help Many adult moths drink nectar together to keep an eye on the change. problem by putting the clothes in www.landcareresearch.co.nz/mothnet and are important pollinators. Knowledge moths. This way, if they start to and out of the freezer a couple of Email: [email protected] Many of our native plants are likely Biosecurity decline we can see something is What does that word mean? Te Takenga mai o te Pepe - Ngā Whetū - The Stars times. @MothNetNZ pollinated by moths. Moths go happening and work together to Lepidoptera: moths and butterflies The Origin of the Moth The story of the moth is told in the Appreciation quietly about this critical job during take better care of the moths. Endemic: found only in that place MothNetNZ Tāne climbs to the highest stars of the Rēhua constellation. Puka Whakamārama o te Pepe Nui www.naturewatch.org.nz/ the night when most people are Music Ecosystem: all biological and heaven to visit his brother, Rēhua. Rēhua, the eldest son of Raki and This guide contains only the most Kaitiakitanga Entomological Society of New Zealand: sleeping, which means we often Why we need quantitative data? physical processes in an area Rēhua calls for a fire to be lit and Papatūānuku, is the reddish star common larger moths in this large www.ento.org.nz overlook how important they are. Food web: what eats what calabashes to be brought forth. Antares in the western Scorpius region. If you find a moth that is not Counting the number of individuals Moths are a major food source Pollination Herbivores: animals that eat plants Acknowledgements Tāne asks his brother “What will we constellation. in this guide, this may be because of each species gives us more for other insects and native Nocturnal: active at night The text, content, and design are by the Ahi Pepe be eating, brother?” At this, Rēhua it is rare, a range extension (not information than just a list of the MothNet project partners: Dr Barbara J Anderson, birds. Unfortunately, they are Community: species in an area shakes his head and two kōkō/ Wairua Tangata - normally found in this place), a species present. This quantitative Komene Cassidy, Victoria Campbell, Dr Robert Hoare, also an important food source for Ecosystem tūi fall from his hair. Tāne refuses ‘The Spirit of a Person’ ‘micro-moth’, an introduced species information helps to detect change Tiahuia Kawe-Small, Tahu MacKenzie, Dr Ralf Ohlemüller, introduced pests like mice, rats, and Health Tangiwai Rewi, Dr Priscilla Wehi and Emma Burns. Illustrations to eat the birds as they have been or a new species. Please let us know. over time or between places. A common held belief was that the hedgehogs. Science are by Sean W Gilles. The moth list was compiled by Dr Robert living in Rēhua’s hair and are tapu. spirits of those who had passed We need to Hoare, with help from NZ’s lepidopterist community. Tāne asks if he can return to earth We can use know what The moth images are photographs by Birgit Rhode of would be reincarnated as a moth. Moths can also be pests with the birds. Rēhua agrees, and science to we have so specimens in the NZAC, taken with funding from the Hīhue (the kūmara moth, Agrius understand Terrestrial Freshwater Biodiversity Information System says that the birds will live in the Moths are an important part of we can convolvuli) had a large impact ecosystem (TFBIS) programme. trees, and feed on the fruits of the New Zealand’s biodiversity better trees. When Rēhua shook his head on kūmara crops and there are responses to Lepidoptera (moths and butterflies) protect it This guide was produced by Manaaki Whenua – other ‘birds’ also fell out: pēpepe, land-use change, Landcare Research as part of the Ahi Pepe MothNet are the third largest group of insects climate change project funded by the MBIE Unlocking Curious the moth; tātarakihi, the cicada; The more we know about in New Zealand (over 1750 named Minds initiative and Biological Heritage National pihareinga, the grasshopper; and and light pollution Ecology species). Scientists estimate there things, the more we Science Challenge. kēkerewai, the beetle. Collectively ISBN: 978-0-947525-34-7 (2017) are still more than 300 moth species appreciate their beauty and these are known as ‘Ngā Manu a Biogeography to be discovered and named in intrinsic value Rēhua’ and come out in summer. New Zealand. Taxonomy “When the pepetuna are in great numbers it is a good night for eeling” Tangiwai Rewi This work is licensed creative commons Attribution-nonCommercial-NoDerivs 3.0 new Zealand. To view details of this license go to www.creativecommons.org/licenses/by-nc-nd/3.0/nz/ Ka hou ki te whenua, he tūkoukou; ka puta ki te rangi he pepe – Te āwheto kai paeka – The caterpillar eats the leaf Me te upoko tūkoukou – like the chrysalis of the Sphinx moth I hikaina te ahi titi, engari i whakapoapoa kē i te pepe – He iti hoki te mokoroa, nāna i kakati te Kahikatea – The pupa enters the Earth, a moth emerges to the sky (Said of someone who goes around tasting various dishes) (When likening something to especially fine weaving) The fire was lit to attract the mutton birds and the moths flew into it – Te Whiti o Rongomai Although the mokoroa is small it attacks the Kahikatea Geometridae Noctuidae Epyaxa rosearia Pseudocoremia fascialata Epiphryne verriculata Graphania omoplaca Graphania ustistriga Ischalis nelsonaria Tmetolophota semivittata Tmetolophota steropastis Tmetolophota sulcana Chalastra aristarcha Agrotis innominata Helicoverpa armigera Bityla defigurata Helastia cinerearia Epyaxa venipunctata Helastia cymozeucta Helastia mutabilis Cleora scriptaria Pseudocoremia leucelaea Meterana alcyone Meterana coeleno Pseudocoremia fenerata N O T E : h e n p i n t e d Aenetus virescens M etera a merope N O T O C A E f t h e r o t h s. m a g e a n d s a l e a r s o w n e r e t 5 % f Agrotis ipsilon Diarsia intermixta a c t u a l s z e . Homodotis megaspilata Declana floccosa Helastia semisignata ‘Hydriomena’ deltoidata M etera a otata 1cm Chalastra pellurgata Pseudocoremia indistincta Pseudocoremia productata Meterana diatmeta Meterana pascoi ‘Aletia‘ moderata ‘Aletia’ virescens Austramathes purpurea Hepialidae Declana feredayi Pasiphila inductata Aenetus virescens Declana atronivea ‘Hydriomena’ rixata Meterana ochthistis 1cm Pseudocoremia suavis Meterana stipata Pasiphila plinthina Pasiphila rivalis Pasiphila semochlora Pasiphila testulata Dipaustica epiastra eredayia graminosa Declana griseata Declana junctilinea Meterana vitiosa Meterana praesignis Pseudocoremia rudisata Sarisa muriferata Sestra flexata Poecilasthena pulchraria Poecilasthena schistaria Graphania brunneosa Graphania chlorodonta Graphania infensa Tatosoma alta Wiseana signata Dumbletonius unimaculatus Declana hermione Declana leptomera i n d w i n g s n d b d o m e n n i v e o t h r e u c h e e p r p r p i s e d . Physetica prionistis Mythimna separata Persectania aversa Tatosoma tipulata Sestra humeraria Asaphodes aegrota Asaphodes beata Asaphodes chlamydota Graphania lignana Graphania sp. f . morosa Graphania mollis Xyridacma alectoraria Scopula rubraria Gellonia dejectaria Gellonia pannularia Physetica sequens Proteuxoa sanguinipuncta Wiseana cervinata Wiseana umbraculata Asaphodes limonodes Austrocidaria gobiata Graphania insignis Sphingidae Erebidae Ischalis fortinata Proteuxoa tetronycha Ischalis gallaria Tmetolophota arotis Schrania costaestrigalis Austrocidaria similata ‘Chloroclystis’ filata Elvia glaucata Graphania paracausta Graphania mutans Agrius convolvuli Ischalis variabilis Epicyme rubropunctaria Epiphryne charidema Epiphryne undosata Graphania plena Tmetolophota atristriga Tmetolophota purdii Tmetolophota hartii hapsa scotosialis Trigonistis anticlina.
Recommended publications
  • Entomology of the Aucklands and Other Islands South of New Zealand: Lepidoptera, Ex­ Cluding Non-Crambine Pyralidae

    Entomology of the Aucklands and Other Islands South of New Zealand: Lepidoptera, Ex­ Cluding Non-Crambine Pyralidae

    Pacific Insects Monograph 27: 55-172 10 November 1971 ENTOMOLOGY OF THE AUCKLANDS AND OTHER ISLANDS SOUTH OF NEW ZEALAND: LEPIDOPTERA, EX­ CLUDING NON-CRAMBINE PYRALIDAE By J. S. Dugdale1 CONTENTS Introduction 55 Acknowledgements 58 Faunal Composition and Relationships 58 Faunal List 59 Key to Families 68 1. Arctiidae 71 2. Carposinidae 73 Coleophoridae 76 Cosmopterygidae 77 3. Crambinae (pt Pyralidae) 77 4. Elachistidae 79 5. Geometridae 89 Hyponomeutidae 115 6. Nepticulidae 115 7. Noctuidae 117 8. Oecophoridae 131 9. Psychidae 137 10. Pterophoridae 145 11. Tineidae... 148 12. Tortricidae 156 References 169 Note 172 Abstract: This paper deals with all Lepidoptera, excluding the non-crambine Pyralidae, of Auckland, Campbell, Antipodes and Snares Is. The native resident fauna of these islands consists of 42 species of which 21 (50%) are endemic, in 27 genera, of which 3 (11%) are endemic, in 12 families. The endemic fauna is characterised by brachyptery (66%), body size under 10 mm (72%) and concealed, or strictly ground- dwelling larval life. All species can be related to mainland forms; there is a distinctive pre-Pleistocene element as well as some instances of possible Pleistocene introductions, as suggested by the presence of pairs of species, one member of which is endemic but fully winged. A graph and tables are given showing the composition of the fauna, its distribution, habits, and presumed derivations. Host plants or host niches are discussed. An additional 7 species are considered to be non-resident waifs. The taxonomic part includes keys to families (applicable only to the subantarctic fauna), and to genera and species.
  • Beginners' Guide to Macro Moths: Te Hiku

    Beginners' Guide to Macro Moths: Te Hiku

    NZ moths are special many whakatauki written about the Why we need to trap the moths Why do we need to study moths? More than 86% of the known moths caterpillar and its capacity to eat. Who benefits from Moths are mainly out at night, so Moths breed fast and have lots of in NZ are endemic. They only occur studying moths? most people don’t see how many offspring. There are lots of different in NZ so we have to look after A more recent pest is the codling there are or what’s happening moth species playing different roles them.. moth (Cydia pomonella). Introduced to them. Unfortunately we need in the ecosystem. Moths have links Beginners’ Guide to Society from Europe, it attacks apples, You & I specimens for identification. to lots of other species (e.g. plants, Macro Moths Why are moths important? pears, walnuts, and other fruit. birds, introduced pests, other Moths are a key part of the wider Nature Why we need standardised data invertebrates). Moths have a bad reputation for ecosystem and they sit in the If we all use the same type of trap eating clothes, especially natural centre of a complex food web. The (e.g. a Heath Moth Trap) we can If something is changing in the Te Hiku fibres like wool, silk, and fur. In caterpillars are herbivores eating a compare data from different places ecosystem, moths are amongst reality there are very few moth range of native plants. and over time. With standardised the first creatures to respond. They species whose caterpillars eat Education information we can all work are likely to be good indicators of clothes.
  • Desassi Thesis.Pdf (2.362Mb)

    Desassi Thesis.Pdf (2.362Mb)

    Biotic interactions in a changing world: the role of feeding interactions in the response of multitrophic communities to rising temperature and nitrogen deposition A thesis submitted in partial fulfillment of the requirements for the Degree of Doctor of Philosophy in the University of Canterbury by Claudio de Sassi School of Biological Sciences University of Canterbury 2012 We can't solve problems by using the same kind of thinking we used when we created them A. Einstein Table of contents Table of contents ........................................................................................................ ii List of figures .............................................................................................................. v List of tables .............................................................................................................. vi Abstract ..................................................................................................................... vii Acknowledgements ................................................................................................... ix Authorship declaration ............................................................................................. xi Chapter I: Introduction ............................................................................................. 1 1.1 A perspective of climate change in ecological research.................................. 1 1.2 How does climate change affect us?...............................................................
  • PDF (7 MB Screen)

    PDF (7 MB Screen)

    2 Hoare (2017) Noctuinae part 1: Austramathes, Cosmodes, Proteuxoa, Physetica. EDITORIAL BOARD Dr R. M. Emberson, c/- Department of Ecology, P.O. Box 84, Lincoln University, New Zealand Dr M. J. Fletcher, NSW Agricultural Scientific Collections Unit, Forest Road, Orange, NSW 2800, Australia Prof. G. Giribet, Museum of Comparative Zoology, Harvard University, 26 Oxford Street, Cambridge, MA 02138, U.S.A. Dr R. J. B. Hoare, Landcare Research, Private Bag 92170, Auckland, New Zealand Dr M.-C. Larivière, Landcare Research, Private Bag 92170, Auckland, New Zealand Mr R. L. Palma, Museum of New Zealand Te Papa Tongarewa, P.O. Box 467, Wellington, New Zealand Dr C. J. Vink, Canterbury Museum, Rolleston Ave, Christchurch, New Zealand CHIEF EDITOR Prof Z.-Q. Zhang, Landcare Research, Private Bag 92170, Auckland, New Zealand Associate Editors Dr T. R. Buckley, Dr R. J. B. Hoare, Dr M.-C. Larivière, Dr R. A. B. Leschen, Dr D. F. Ward, Dr Z. Q. Zhao, Landcare Research, Private Bag 92170, Auckland, New Zealand Honorary Editor Dr T. K. Crosby, Landcare Research, Private Bag 92170, Auckland, New Zealand Fauna of New Zealand 73 3 Fauna of New Zealand Ko te Aitanga Pepeke o Aotearoa Number / Nama 73 Noctuinae (Insecta: Lepidoptera: Noctuidae) part 1: Austramathes, Cosmodes, Proteuxoa, Physetica by R.J.B. Hoare1 with colour photographs by B.E. Rhode 1 Landcare Research, Private Bag 92170, Auckland, New Zealand [email protected] Auckland, New Zealand 2017 4 Hoare (2017) Noctuinae part 1: Austramathes, Cosmodes, Proteuxoa, Physetica. Copyright © Landcare Research New Zealand Ltd 2017 No part of this work covered by copyright may be reproduced or copied in any form or by any means (graphic, elec- tronic, or mechanical, including photocopying, recording, taping information retrieval systems, or otherwise) without the written permission of the publisher.
  • Beginners' Guide to the Macro-Moths of Otago A4

    Beginners' Guide to the Macro-Moths of Otago A4

    Moonlight The effect of light Beginners' guide to the The phase of the moon affects the Moths are well known for their macro-moths of Otago number and type of moths that are attraction to light. Lights come in flying. Moths tend to be more different colours. The different colours abundant on the new moon (when are related to the wavelength of the there is no moon light) and less on the light. Longer wavelengths look Why are moths important? full moon. To fairly compare catches orange/red. Shorter wavelengths look We know relatively little about the we need to take into account the moon blue/violet. Moths can see further into distribution of moths across New phase. For a small experiment we can the short (Ultra-Violet) wavelengths Moths play an important role in the Zealand, moth ecology or the potential set the moth traps on the same night than we can. ecosystem, as food for native birds and impacts of artificial light on moth or in the same moon phase. For a wide- pollinators for plants. communities. ranging or long-term study we need to There are all sorts of artificial lights record the moon phase (or work it out around our houses, schools and streets. Some give off yellow/orange Lepidoptera (moths and butterflies) are What determines which later) to take it into account using light like classic street lights. Newer the third largest group of insects in New moths are where? statistics. Zealand with over 2000 known species. LED street lights come in a range of Most New Zealand moths are found We can test the effect of the moon colours including white-blue.
  • Indigenous Insect Fauna and Vegetation of Rakaia Island

    Indigenous Insect Fauna and Vegetation of Rakaia Island

    Indigenous insect fauna and vegetation of Rakaia Island Report No. R14/60 ISBN 978-1-927299-84-2 (print) 978-1-927299-86-6 (web) Brian Patrick Philip Grove June 2014 Report No. R14/60 ISBN 978-1-927299-84-2 (print) 978-1-927299-86-6 (web) PO Box 345 Christchurch 8140 Phone (03) 365 3828 Fax (03) 365 3194 75 Church Street PO Box 550 Timaru 7940 Phone (03) 687 7800 Fax (03) 687 7808 Website: www.ecan.govt.nz Customer Services Phone 0800 324 636 Indigenous insect fauna and vegetation of Rakaia Island Executive summary The northern end of Rakaia Island, a large in-river island of the Rakaia River, still supports relatively intact and extensive examples of formerly widespread Canterbury Plains floodplain and riverbed habitats. It is managed as a river protection reserve and conservation area by Canterbury Regional Council, having been retired from grazing since 1985. This report describes the insect fauna associated with indigenous and semi-indigenous forest, shrubland-grassland and riverbed vegetation of north Rakaia Island. A total of 119 insect species of which 112 (94%) are indigenous were recorded from the area during survey and sampling in 2012-13. North Rakaia Island is of very high ecological significance for its remnant indigenous vegetation and flora (including four nationally threatened plant species), its insect communities, and insect-plant relationships. This survey, which focused on Lepidoptera, found many of the common and characteristic moths and butterflies that would have been abundant across the Canterbury Plains before European settlement. Three rare/threatened species and several new species of indigenous moth were also found.
  • Conservation Status of the New Zealand Lepidoptera

    Conservation Status of the New Zealand Lepidoptera

    Conservation status of the New Zealand Lepidoptera SCIENCE FOR CONSERVATION 136 B.H. Patrick and J.S. Dugdale Published by Department of Conservation P.O. Box 10-420 Wellington, New Zealand Science for Conservation presents the results of investigations by DOC staff, and by contracted science providers outside the Department of Conservation. Publications in this series are internally and externally peer reviewed. © January 2000, Department of Conservation ISSN 11732946 ISBN 047821867-2 Patrick, B. H. (Brian H.) Conservation status of the New Zealand Lepidoptera / B.H. Patrick and J.S. Dugdale. Wellington, N.Z. : Dept. of Conservation, 2000. 1 v. ; 30 cm. (Science for conservation, 1173-2946 ; 136). Cataloguing-in-Publication data. - Includes bibliographical references. ISBN 0478218672 1. Lepidoptera--New Zealand. I. Dugdale, J. S. II. Title. Series: Science for conservation ; 136. CONTENTS Abstract 5 1. Introduction 6 2. Construction of the list 7 2.1 The modified criteria of Molloy & Davis (1994) 7 2.2 Definitions of the Patrick & Dugdale categories 8 2.3 List format 9 2.4 Unevaluated species 10 3. Results and discussion 11 3.1 Numbers of species at risk 11 3.2 Habitats of the listed Lepidoptera 13 3.3 Need for more information 13 4. Conclusions 15 4.1 Species in urgent need of conservation action 15 5. Recommendations 16 6. Acknowledgements 17 7. References 18 8. Appendix 1. List of Lepidoptera species considered to be at risk 19 Conservation status of the New Zealand Lepidoptera B.H. Patrick and J.S. Dugdale Otago Museum, PO Box 6202, Dunedin, and 4 Montrose Drive, Nelson ABSTRACT The New Zealand moths and butterflies (Lepidoptera), forming New Zealands third largest Order of Insecta, with c.
  • The Weta Vol 38 Outsidecover.P65

    The Weta Vol 38 Outsidecover.P65

    THE WETA News Bulletin of THE ENTOMOLOGICAL SOCIETY OF NEW ZEALAND Volume 48 December 2014 ISSN 0111-7696 THE WETA News Bulletin of the Entomological Society of New Zealand (Inc.) [Now ONLINE at http://ento.org.nz/nzentomologist/index.php] Aims and Scope The Weta is the news bulletin of the Entomological Society of New Zealand. The Weta, like the society’s journal, the New Zealand Entomologist, promotes the study of the biology, ecology, taxonomy and control of insects and arachnids in an Australasian setting. The purpose of the news bulletin is to provide a medium for both amateur and professional entomologists to record observations, news, views and the results of smaller research projects. Details for the submission of articles are given on the inside back cover. The Entomological Society of New Zealand The Society is a non-profit organisation that exists to foster the science of Entomology in New Zealand, whether in the study of native or adventive fauna. Membership is open to all people interested in the study of insects and related arthropods. Enquiries regarding membership to the Society should be addressed to: Dr Darren F. Ward, Entomological Society Treasurer, New Zealand Arthropod Collection, Landcare Research Private Bag 92170, Auckland 1142, New Zealand [email protected] Officers 2014-2015 President: Dr Stephen Pawson Vice President: Dr Cor Vink Immediate Past President: Dr Phil Lester Secretary: Dr Greg Holwell Treasurer: Dr Matthew Shaw New Zealand Entomologist editor: Dr Phil Sirvid Membership Officer: Mr Tom Saunders The Weta editor: Dr John Leader Website editor: Dr Sam Brown Visit the website at: http://ento.org.nz/ Fellows of the Entomological Society of New Zealand Dr G.
  • Christchurch District Plan Site of Ecological Significance Site

    Christchurch District Plan Site of Ecological Significance Site

    Christchurch District Plan Site of Ecological Significance Site Significance Statement Site name: Stony Beach Site number: SES/A/27 Physical address of site: Stony Beach, Chorlton Road, Okains Bay Summary of Significance: This site is significant because it contains areas of rare and moderately representative vegetation. It supports an outstanding number of indigenous plant species that are nationally Threatened or At Risk and is part of an area that is considered to be the most important site for threatened tree daisies on Banks Peninsula. It supports three plant species that are uncommon within the ecological region or ecological district and another seven at their national distributional limit on Banks Peninsula. It also has eight invertebrate species that are nationally Threatened or At Risk, five that are endemic to Banks Peninsula, three that are uncommon in the ecological district and another three that are possibly new species. The site is part of an ecological network and is of particular importance in linking the high value forest patches in North-west Okains Bay and Donaldsons Bush. Site Map 1 SES/A/27 Site Significance Statement Additional Site Information Ecological District: Akaroa Area of SES (ha): 18.95 Central point: (NZTM): E1603998, N5164398 Site Description This site is indigenous secondary forest, treeland and scrub on lowland hill slopes on the eastern and western slopes of Stony Beach Valley. The altitudinal range of the site extends from approximately sea level to 160 m above sea level. The aspect is north-west facing on the eastern side of Stony Beach and south and east-facing on the western side.
  • New Zealand's Naturally Uncommon Ecosystems

    New Zealand's Naturally Uncommon Ecosystems

    NEW ZEALAND’S NATURALLY UNCOMMON ECOSYSTEMS 1.3 NEW ZEALAND’S NATURALLY UNCOMMON ECOSYSTEMS Susan K. Wiser1, Rowan P. Buxton1, Beverley R. Clarkson2, Robert J.B. Hoare3, Robert J. Holdaway1, Sarah J. Richardson1, Mark C. Smale2, Carol West5, Peter A. Williams4 1 Landcare Research, PO Box 69040, Lincoln 7640, New Zealand 2 Landcare Research, Hamilton, New Zealand 3 Landcare Research, Auckland, New Zealand 4 Landcare Research, Nelson, New Zealand 5 Department of Conservation, Wellington ABSTRACT: We provide an overview of naturally uncommon ecosystems in New Zealand. Terrestrial ecosystems that were rare before humans colonised New Zealand often have highly specialised and diverse assemblages of flora and fauna, characterised by endemic and rare species. A national-scale typology provides a list of 72 naturally uncommon ecosystems distributed across the country. These may be small (e.g. 100 m2 to a few hundreds of hectares) but geographically widespread, or larger (e.g. 10 000s of hectares) but geographically restricted. Many of these ecosystems occur in azonal environments that lack trees, despite often lying below the regional treeline. Naturally uncommon ecosystems have been highlighted as priorities for protection of rare and threatened native biodiversity on private land and are recognised as such by government departments and territorial authorities. To support this, policymakers must be able to identify instances of naturally uncommon ecosystems, to know where they occur, and to know how threatened they are. Approaches have been developed to map the distribution of each ecosystem based on combinations of modelling from existing spatial layers, interpretation of remotely sensed images, literature, and local knowledge.
  • Study on Owlet Moths (Noctuidae: Lepidoptera) from District Khairpur Mir’S Pakistan

    Study on Owlet Moths (Noctuidae: Lepidoptera) from District Khairpur Mir’S Pakistan

    Pure Appl. Biol., 10(4):1379-1387, December, 2021 http://dx.doi.org/10.19045/bspab.2021.100143 Research Article Study on owlet moths (Noctuidae: Lepidoptera) from district Khairpur Mir’s Pakistan Paras Soomro1, Abdul Manan Shaikh1, Waheed Ali Panhwar1*, Khadim Hussain Memon1, Safdar Ali Ujjan1, Javed Ahmed Ujjan1, Zaib Un Nisa Memon1, Majeeda Ruk1 and Shabana Mangi1 1. Department of Zoology, Shah Abdul Latif University Khairpur Mirs Sindh, Pakistan *Corresponding author’s email: [email protected] Citation Paras Soomro, Abdul Manan Shaikh, Waheed Ali Panhwar, Khadim Hussain Memon, Safdar Ali Ujjan, Javed Ahmed Ujjan, Zaib Un Nisa Memon, Majeeda Ruk and Shabana Mangi. Study on owlet moths (Noctuidae: Lepidoptera) from district Khairpur Mir’s Pakistan. Pure and Applied Biology. Vol. 10, Issue 4, pp1380-1387. http://dx.doi.org/10.19045/bspab.2021.100143 Received: 25/01/2021 Revised: 26/03/2021 Accepted: 12/04/2021 Online First: 22/04/2021 Abstract Noctuidae or owlet moths are group of robust moths. The name of this family is taken from the way that night species have eyes, with reflect light with and an orange gleam. Most species are dim to cocoa in color frequently with dim and light spots on the forewings. They are nocturnal and are normally attracted to lights those larvae of Noctuidae have tufts of short abounds and might be brilliantly colored. Most are foliage feeders and the insatiable hungers of few species have turned them to serious pest of wide range of crops and thus they are known as army- worms and cutworms. Extensive surveys were carried out to collect Noctuidae fauna of district Khairpur Mirs.

  • (Insecta: Lepidoptera: Noctuidae). Part 2, Nivetica, Ichneutica / by R.J.B

    2 Hoare (2019) Noctuinae part 2: Nivetica, Ichneutica EDITORIAL BOARD Dr M. J. Fletcher, NSW Agricultural Scientific Collections Unit, Forest Road, Orange, NSW 2800, Australia Prof. G. Giribet, Museum of Comparative Zoology, Harvard University, 26 Oxford Street, Cambridge, MA 02138, U.S.A . Dr R. J. B. Hoare, Manaaki Whenusa - Landcare Research, Private Bag 92170, Auckland, New Zealand Mr R. L. Palma, Museum of New Zealand Te Papa Tongarewa, P.O. Box 467, Wellington, New Zealand Dr C. J. Vink, Canterbury Museum, Rolleston Ave, Christchurch, New Zealand CHIEF EDITOR Prof Z.-Q. Zhang, Manaaki Whenusa - Landcare Research, Private Bag 92170, Auckland, New Zealand Associate Editors Dr T. R. Buckley, Dr R. J. B. Hoare,, Dr R. A. B. Leschen, Dr D. F. Ward, Dr Z. Q. Zhao, Manaaki Whenusa - Landcare Research, Private Bag 92170, Auckland, New Zealand Honorary Editor Dr T. K. Crosby, Manaaki Whenusa - Landcare Research, Private Bag 92170, Auckland, New Zealand Fauna of New Zealand 80 3 Fauna of New Zealand Ko te Aitanga Pepeke o Aotearoa Number / Nama 80 Noctuinae (Insecta: Lepidoptera: Noctuidae) part 2: Nivetica, Ichneutica by R.J.B. Hoare1 with colour photographs by B.E. Rhode 1 Manaaki Whenusa - Landcare Research, Private Bag 92170, Auckland, New Zealand [email protected] Auckland, New Zealand 2019 4 Hoare (2019) Noctuinae part 2: Nivetica, Ichneutica Copyright © Manaaki Whenusa - Landcare Research New Zealand Ltd 2019 No part of this work covered by copyright may be reproduced or copied in any form or by any means (graphic, elec- tronic, or mechanical, including photocopying, recording, taping information retrieval systems, or otherwise) without the written permission of the publisher.