DOCSLIB.ORG

A Rapid Biodiversity Assessment of Papua New Guinea's Hindenburg Wall Region

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
A Rapid Biodiversity Assessment of Papua New Guinea's Hindenburg Wall Region A Rapid Biodiversity Assessment of Papua New Guinea’s Hindenburg Wall Region edited by Stephen Richards & Nathan Whitmore Published by: Wildlife Conservation Society Papua New Guinea Program PO BOX 277, Goroka, Eastern Highlands Province PAPUA NEW GUINEA Tel: +675-532-3494 www.wcs.org Editors: Stephen J. Richards and Nathan Whitmore. Authors: Leeanne E. Alonso, Ken P. Aplin, Arison Arihafa, Kyle N. Armstrong, Michael Hammer, Jiri Hulcr, John Par Kagl, Bensolo Ken, , John S. Lamaris, Andrea Lucky, Chris J. Müller, Stephen J. Richards, Eli Sarnat, Günther Theischinger, Fanie Venter, Nathan Whitmore, and Iain Woxvold. The Wildlife Conservation Society is a private, not-for-profit organisation exempt from federal income tax under section 501c(3) of the Inland Revenue Code. The opinions expressed in this publication are those of the contributors and do not necessarily reflect those of the Wildlife Conservation Society or PNG Sustainable Development Program. Suggested citation: Richards, S.J. and N. Whitmore (editors) 2015. A rapid biodiversity assessment of Papua New Guinea's Hindenburg Wall region. Wildlife Conservation Society Papua New Guinea Program. Goroka, PNG. ISBN: 978-0-9943203-0-8 Front cover Image: Rocky Roe (waterfall on approach to Minni Camp) Rear cover Image: Stephen J. Richards (Nyctimystes oktediensis) ©2015 Wildlife Conservation Society TABLE OF CONTENTS Acknowledgements ii Partner Organisation Profiles iii Participants & Authors v Executive Summary vii Introduction 1 Chapter 1: Traditional & Local Ecological Knowledge 3 Chapter 2: Vascular Plants 14 Chapter 3: Ants & Scolytine Beetles 44 Chapter 4: Butterflies 60 Chapter 5: Odonata (Dragonflies & Damselflies) 75 Chapter 6: Freshwater fishes 84 Chapter 7: Herpetofauna 94 Chapter 8: Birds 103 Chapter 9: Non-Flying Mammals 131 Chapter 10: Bats 161 i ACKNOWLEDGEMENTS Many people and organisations helped to facilitate the 2013 Hindenburg Wall survey. First and foremost we are most grateful to PNGSDP for their financial and logistic support, without which the project could not have been undertaken. We would especially like to thank Stanis Tao, Tricia Caswell and Kaia Songoa of PNGSDP. We are also grateful to the Department of Environment and Conservation for granting us the necessary approvals and permits, and for supporting our work on the Hindenburg Wall. This survey also would not have been possible without the support, aid and goodwill of the Star Mountains Local Level Government, the Western Province Provincial Government and the people of Bultem, Finalbin, Migalsin, Kawarobip villages and Tabubil. In particular we would like to acknowledge the Keikei, Kimka, Fikalin and Sikalin clans. We would especially like to thank the following people from Bultem village: the landowners Brian Yapi, Tom Kilmo, and Papa Limon; as well as the late Jason Yapi, Buka Oxem, Eileen Yapi, Isach Willy, Grace Davaisok, Jeffery Rawali, Jennifer Jason, Joseph Mek, Maltex Erisan, Morris Arnold, Joshua Tiemg, Scops Nimbs, and Sinem Yokomin. We would also like to thank the following people from Finalbin and Kawarobip villages: the landowners Tarabi Buretam, Epson Buretam, and Bakim Buretam; as well as Dominic Bitalin, Joel Tunoim, Mark Tunoim, Isac Tamop, John Kasamyap, Anton Milok, Rodrick Fred, Philomon Buturaue, Philomon Butunyap, Taruku Buratem, Franky Lukas, and Lukas Bukokim. We are grateful to the efforts of theTabubil-based fish team: Michael Borok, Josiah Bekton, Joshua Lieng and Noah. We would like to also acknowledge the efforts of Geoffrey Saikeng and Mr Demus Daksep (executive officer) of the Olsobip local level government for their tireless efforts to secure the original survey sites. A special thanks goes to Roger Goodwin (University of Queensland) for his kind assistance in allowing WCS equipment to be stored and collected in Brisbane over the Christmas holiday period in advance of the survey, Sacha de Witt for helping coordinate efforts in Tabubil, Bennett Spencer from Adventist Aviation for piloting the WCS equipment into Tabubil, the Tabubil Women’s Resource Centre, as well as the helicopter pilots of Hevilift Tabubil. We would also like to thank OTML staff: Luke Jackson, Rob Smilie, Michael Ridd, Sandy Thomas, Leonard Lagisa, Jeff Ransley, Yon Buhuyana, Gawareng Kerod, Babanem Ernest and Trevor Green, and Verolyn Nombri from Radio Fly for facilitating elements of the survey. Finally we would also like to acknowledge the efforts of the support crew and other field colleagues through what at times were challenging circumstances: James Watson, John Kuange, John Ole, Junior Walker, Lilly Ugi, Marygrace Wanamp-Puri, Phil Shearman, Ross Sinclair and Yazid Abdad. ii PARTNER ORGANISATION PROFILES PNG Sustainable Development Program (PNGSDP) www.pngsdp.com PNGSDP was established in 2002 with the mission of promoting development that meets the needs of the present generation and establishes the foundation for continuing progress for future generations of Papua New Guineans. This was achieved by using funds generated from its share in Ok Tedi Mining Limited to support development in PNG, in particular for the people of the Western Province. PNGSDP’s objective is to support selected sustainable development programs through projects and initiatives in keeping with the aims and aspirations outlined in the UN Millennium Development Goals. Papua New Guinea Department of Environment and Conservation (DEC) www.dec.gov.pg DEC is vested with powers to protect environmental values and for the sustainable use of natural resources as mandated by the Fourth Goal of the PNG National Constitution. Its mission is to ensure PNG’s natural resources are managed to sustain environmental quality, human wellbeing and support improved standards of living. The Directive Principles of DEC include the wise use of natural resources and the environment in the interest of development and in trust for future generations, the conservation and replenishment of the environment and its sacred, scenic and historical qualities, and giving adequate protection to PNG’s unique plants and animals. Wildlife Conservation Society (WCS) www.wcs.org The Wildlife Conservation Society, founded in 1895 as the New York Zoological Society, has the clear mission to save wildlife and wild places across the globe. WCS does so through science, global conservation, education and the management of the world's largest system of urban wildlife parks, led by the flagship Bronx Zoo. With a commitment to protect 25 percent of the world’s biodiversity, WCS addresses four of the biggest issues facing wildlife and wild places: climate change, natural resource exploitation, the connection between wildlife health and human health, and the sustainable development iii of human livelihoods. While taking on these issues, WCS manages more than 80 million hectares of protected lands around the world, with more than 200 scientists on staff. The goals of the WCS programme in PNG are to promote the sustainable use and rehabilitation of terrestrial and coastal marine ecosystems and to identify and implement measures to address the effects of climate change. This approach aims to safeguard biodiversity, livelihoods, cultural heritage, and user rights of Papua New Guineans. iv PARTICIPANTS & AUTHORS Leeanne E. Alonso (Ants) Alois Gambia (Butterflies) Global Wildlife Conservation, c/o Chris Müller PO Box 129, Department of Biological Sciences Austin, TX 78767 Macquarie University USA. Sydney, 2109 Email: [email protected] Australia Email: [email protected] Ken P. Aplin (Mammals) Division of Mammals Michael Hammer (Fishes) National Museum of Natural History Department of Fishes Smithsonian Institution Museum and Art Gallery of the Northern Territory P.O. Box 37012, MRC 108 P.O. Box 4646, Darwin, NT 0801 Washington, D.C. 20013−7012 Australia USA Email: [email protected] Email: [email protected] or [email protected] Jiri Hulcr (Scolytine beetles) Arison Arihafa (Plants) University of Florida WCS Papua New Guinea School of Forest Resources & Conservation PO Box 277 317 Newins-Ziegler Hall Goroka, Eastern Highlands Province Gainesville, FL 32611−0410 Papua New Guinea USA. Email: [email protected] Email: [email protected] Kyle N. Armstrong (Bats) John Par Kagl Specialised Zoological (Community engagement, Traditional knowledge) 7 Palmerston Road, Unley WCS Papua New Guinea South Australia 5061 PO Box 277, Goroka Australia Eastern Highlands Province Email: [email protected] Papua New Guinea Email: [email protected] v Bensolo Ken (Birds) Gunther Theischinger (Odonata) WCS Papua New Guinea NSW Department of Premier and Cabinet PO Box 277 Office of Environment and Heritage Goroka, Eastern Highlands Province PO Box 29, Lidcombe, NSW 1825 Papua New Guinea Australia Email: [email protected] Email:[email protected] John S. Lamaris (Mammals) Fanie Venter (Plants) WCS Papua New Guinea Research Associate PO Box 277 Australian Tropical Herbarium Goroka, Eastern Highlands Province Sir Robert Norman Building (E2) Papua New Guinea James Cook University Cairns Campus Email: [email protected] MacGregor Road Smithfield, QLD 4878 Chris Müller (Butterflies) Australia Department of Biological Sciences, Email: [email protected] Macquarie University Sydney, 2109, Nathan Whitmore (Project coordinator) Australia WCS Papua New Guinea Email: [email protected] PO Box 277 Goroka Stephen Richards Eastern Highlands Province (Team leader, Herpetofauna, Odonata) Papua New Guinea Department of Terrestrial Vertebrates Email: [email protected]
Load more

Recommended publications
  • Decline of Rare and Specialist Species Across Multiple Taxonomic Groups After Grassland Intensification and Abandonment
    Decline of rare and specialist species across multiple taxonomic groups after grassland intensification and abandonment Andreas Hilpold1,*,§, Julia Seeber1,2,§, Veronika Fontana1, Georg Niedrist1, Alexander Rief2, Michael Steinwandter1, Erich Tasser1, Ulrike Tappeiner1,2 1 Institute for Alpine Environment, Eurac Research, Drususallee 1, 39100 Bolzano/Bozen, Italy 2 Department of Ecology, University of Innsbruck, Technikerstraße 25, 6020 Innsbruck, Austria § these authors contributed equally as first authors * corresponding author: [email protected], Institute for Alpine Environment, Eurac Research, Drususallee 1, 39100 Bolzano/Bozen, Italy Abstract Traditionally managed mountain grasslands are declining as a result of abandonment or intensification of management. Based on a common chronosequence approach we investigated species compositions of 16 taxonomic groups on traditionally managed dry pastures, fertilized and irrigated hay meadows, and abandoned grasslands (larch forests). We included faunal above- and below-ground biodiversity as well as species traits (mainly rarity and habitat specificity) in our analyses. The larch forests showed the highest species number (345 species), with slightly less species in pastures (290 species) and much less in hay meadows (163 species). The proportion of rare species was highest in the pastures and lowest in hay meadows. Similar patterns were found for specialist species, i.e. species with a high habitat specificity. After abandonment, larch forests harbor a higher number of pasture species than hay meadows. These overall trends were mainly supported by spiders and vascular plants. Lichens, bryophytes and carabid beetles showed partly contrasting trends. These findings stress the importance to include a wide range of taxonomic groups in conservation studies. All in all, both abandonment and intensification had similar negative impacts on biodiversity in our study, underlining the high conservation value of Inner-Alpine dry pastures.
    [Show full text]
  • Green-Tree Retention and Controlled Burning in Restoration and Conservation of Beetle Diversity in Boreal Forests
    Dissertationes Forestales 21 Green-tree retention and controlled burning in restoration and conservation of beetle diversity in boreal forests Esko Hyvärinen Faculty of Forestry University of Joensuu Academic dissertation To be presented, with the permission of the Faculty of Forestry of the University of Joensuu, for public criticism in auditorium C2 of the University of Joensuu, Yliopistonkatu 4, Joensuu, on 9th June 2006, at 12 o’clock noon. 2 Title: Green-tree retention and controlled burning in restoration and conservation of beetle diversity in boreal forests Author: Esko Hyvärinen Dissertationes Forestales 21 Supervisors: Prof. Jari Kouki, Faculty of Forestry, University of Joensuu, Finland Docent Petri Martikainen, Faculty of Forestry, University of Joensuu, Finland Pre-examiners: Docent Jyrki Muona, Finnish Museum of Natural History, Zoological Museum, University of Helsinki, Helsinki, Finland Docent Tomas Roslin, Department of Biological and Environmental Sciences, Division of Population Biology, University of Helsinki, Helsinki, Finland Opponent: Prof. Bengt Gunnar Jonsson, Department of Natural Sciences, Mid Sweden University, Sundsvall, Sweden ISSN 1795-7389 ISBN-13: 978-951-651-130-9 (PDF) ISBN-10: 951-651-130-9 (PDF) Paper copy printed: Joensuun yliopistopaino, 2006 Publishers: The Finnish Society of Forest Science Finnish Forest Research Institute Faculty of Agriculture and Forestry of the University of Helsinki Faculty of Forestry of the University of Joensuu Editorial Office: The Finnish Society of Forest Science Unioninkatu 40A, 00170 Helsinki, Finland http://www.metla.fi/dissertationes 3 Hyvärinen, Esko 2006. Green-tree retention and controlled burning in restoration and conservation of beetle diversity in boreal forests. University of Joensuu, Faculty of Forestry. ABSTRACT The main aim of this thesis was to demonstrate the effects of green-tree retention and controlled burning on beetles (Coleoptera) in order to provide information applicable to the restoration and conservation of beetle species diversity in boreal forests.
    [Show full text]
  • Title Butterflies Collected in and Around Lambir Hills National Park
    Butterflies collected in and around Lambir Hills National Park, Title Sarawak, Malaysia in Borneo ITIOKA, Takao; YAMAMOTO, Takuji; TZUCHIYA, Taizo; OKUBO, Tadahiro; YAGO, Masaya; SEKI, Yasuo; Author(s) OHSHIMA, Yasuhiro; KATSUYAMA, Raiichiro; CHIBA, Hideyuki; YATA, Osamu Contributions from the Biological Laboratory, Kyoto Citation University (2009), 30(1): 25-68 Issue Date 2009-03-27 URL http://hdl.handle.net/2433/156421 Right Type Departmental Bulletin Paper Textversion publisher Kyoto University Contn bioL Lab, Kyoto Univ., Vot. 30, pp. 25-68 March 2009 Butterflies collected in and around Lambir Hills National ParK SarawaK Malaysia in Borneo Takao ITioKA, Takuji YAMAMo'rD, Taizo TzucHiyA, Tadahiro OKuBo, Masaya YAGo, Yasuo SEKi, Yasuhiro OHsHIMA, Raiichiro KATsuyAMA, Hideyuki CHiBA and Osamu YATA ABSTRACT Data ofbutterflies collected in Lambir Hills National Patk, Sarawak, Malaysia in Borneo, and in ks surrounding areas since 1996 are presented. In addition, the data ofobservation for several species wimessed but not caught are also presented. In tota1, 347 butterfly species are listed with biological information (habitat etc.) when available. KEY WORDS Lepidoptera! inventory1 tropical rainforesti species diversity1 species richness! insect fauna Introduction The primary lowland forests in the Southeast Asian (SEA) tropics are characterized by the extremely species-rich biodiversity (Whitmore 1998). Arthropod assemblages comprise the main part of the biodiversity in tropical rainforests (Erwin 1982, Wilson 1992). Many inventory studies have been done focusing on various arthropod taxa to reveal the species-richness of arthropod assemblages in SEA tropical rainforests (e.g. Holloway & lntachat 2003). The butterfly is one of the most studied taxonomic groups in arthropods in the SEA region; the accumulated information on the taxonomy and geographic distribution were organized by Tsukada & Nishiyama (1980), Yata & Morishita (1981), Aoki et al.
    [Show full text]
  • Frontiers in Zoology Biomed Central
    Frontiers in Zoology BioMed Central Research Open Access Does the DNA barcoding gap exist? – a case study in blue butterflies (Lepidoptera: Lycaenidae) Martin Wiemers* and Konrad Fiedler Address: Department of Population Ecology, Faculty of Life Sciences, University of Vienna, Althanstrasse 14, 1090 Vienna, Austria Email: Martin Wiemers* - [email protected]; Konrad Fiedler - [email protected] * Corresponding author Published: 7 March 2007 Received: 1 December 2006 Accepted: 7 March 2007 Frontiers in Zoology 2007, 4:8 doi:10.1186/1742-9994-4-8 This article is available from: http://www.frontiersinzoology.com/content/4/1/8 © 2007 Wiemers and Fiedler; licensee BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Abstract Background: DNA barcoding, i.e. the use of a 648 bp section of the mitochondrial gene cytochrome c oxidase I, has recently been promoted as useful for the rapid identification and discovery of species. Its success is dependent either on the strength of the claim that interspecific variation exceeds intraspecific variation by one order of magnitude, thus establishing a "barcoding gap", or on the reciprocal monophyly of species. Results: We present an analysis of intra- and interspecific variation in the butterfly family Lycaenidae which includes a well-sampled clade (genus Agrodiaetus) with a peculiar characteristic: most of its members are karyologically differentiated from each other which facilitates the recognition of species as reproductively isolated units even in allopatric populations.
    [Show full text]
  • Observations on Lycaenid Butterflies from Panbari Reserve Forest and Adjoining Areas, Kaziranga, Assam, Northeastern
    Journal of Threatened Taxa | www.threatenedtaxa.org | 26 December 2015 | 7(15): 8259–8271 Observations on lycaenid butterflies from Panbari Reserve Forest and adjoining areas, Kaziranga, Assam, northeastern India ISSN 0974-7907 (Online) ISSN 0974-7893 (Print) Communication Short Monsoon Jyoti Gogoi OPEN ACCESS Ph.D Student, Department of Ecology & Environmental Science, Assam University, Silchar, Assam 788011, India [email protected] Abstract: A checklist of 116 taxa of Lycaenidae (Blues) along with made to document the Lycaenidae notes on important species in low elevation forest of Panbari Reserve, of Kaziranga-Karbi Hills Kaziranga - West Karbi Hills, upper Assam is reported in this paper based on surveys conducted during 2007–2012 and some recent sightings till date. Important sightings include Blue Gem Poritia Methods erycinoides elsiei, Square-band Brownie Miletis nymphys porus, Plain Plushblue Flos apidanus ahamus, Blue Royal Ancema carmentalis, Study area Elwes Silverline Spindasis elwesi, Artipe skinneri, etc. The Panbari Reserve Forest (26036’N & 93030’E) is protected under the Kaziranga National Park (KNP) Keywords: Butterfly diversity, Kaziranga, Lycaenidae, northeastern India, Panbari Reserve. as its fourth addition (Images 1a,b & 2). The average elevation of the forest is around 90m. The altitude however ranges from 70–300 m. The reserve is very close to National Highway 37 (NH37) on the Guwahati- The Lycaenidae (Blues) butterfly diversity in low Jorhat route. The reserve falls between Golaghat and elevation forests of Panbari Reserve, Kaziranga - West Karb Anglong (KA) districts of Assam. To the north of Karbi Hills, upper Assam is reported in this paper. Karbi the reserve lies Dollamora proposed reserve in Karbi Hills constitue a chain of hill ranges lying in middle Assam Anglong District and on the southern boundary is a in the southern bank of the river Brahmaputra.
    [Show full text]
  • A Global Overview of Protected Areas on the World Heritage List of Particular Importance for Biodiversity
    A GLOBAL OVERVIEW OF PROTECTED AREAS ON THE WORLD HERITAGE LIST OF PARTICULAR IMPORTANCE FOR BIODIVERSITY A contribution to the Global Theme Study of World Heritage Natural Sites Text and Tables compiled by Gemma Smith and Janina Jakubowska Maps compiled by Ian May UNEP World Conservation Monitoring Centre Cambridge, UK November 2000 Disclaimer: The contents of this report and associated maps do not necessarily reflect the views or policies of UNEP-WCMC or contributory organisations. The designations employed and the presentations do not imply the expressions of any opinion whatsoever on the part of UNEP-WCMC or contributory organisations concerning the legal status of any country, territory, city or area or its authority, or concerning the delimitation of its frontiers or boundaries. TABLE OF CONTENTS EXECUTIVE SUMMARY INTRODUCTION 1.0 OVERVIEW......................................................................................................................................................1 2.0 ISSUES TO CONSIDER....................................................................................................................................1 3.0 WHAT IS BIODIVERSITY?..............................................................................................................................2 4.0 ASSESSMENT METHODOLOGY......................................................................................................................3 5.0 CURRENT WORLD HERITAGE SITES............................................................................................................4
    [Show full text]
  • Diversity and Organization of the Ground Foraging Ant Faunas of Forest, Grassland and Tree Crops in Papua New Guinea
    - - -- Aust. J. Zool., 1975, 23, 71-89 Diversity and Organization of the Ground Foraging Ant Faunas of Forest, Grassland and Tree Crops in Papua New Guinea P. M. Room Department of Agriculture, Stock and Fisheries, Papua New Guinea; present address: Cotton Research Unit, CSIRO, P.M.B. Myallvale Mail Run, Narrabri, N.S.W. 2390. Abstract Thirty samples of ants were taken in each of seven habitats: primary forest, rubber plantation, coffee plantation, oilpalm plantation, kunai grassland, eucalypt savannah and urban grassland. Sixty samples were taken in cocoa plantations. A total of 156 species was taken, and the frequency of occurrence of each in each habitat is given. Eight stenoecious species are suggested as habitat indicators. Habitats fell into a series according to the similarity of their ant faunas: forest, rubber and coffee, cocoa and oilpalm, kunai and savannah, urban. This series represents an artificial, discontinuous succession from a complex stable ecosystem to a simple unstable one. Availability of species suitably preadapted to occupy habitats did not appear to limit species richness. Habitat heterogeneity and stability as affected by human interference did seem to account for inter-habitat variability in species richness. Species diversity was compared between habitats using four indices: Fisher et al.; Margalef; Shannon; Brillouin. Correlation of diversity index with habitat hetero- geneity plus stability was good for the first two, moderate for Shannon, and poor for Brillouin. Greatest diversity was found in rubber, the penultimate in the series of habitats according to hetero- geneity plus stability ('maturity'). Equitability exceeded the presumed maximum in rubber, and was close to the maximum in all habitats.
    [Show full text]
  • Barriers to Dispersal of Rain Forest Butterflies in Tropical Agricultural
    BIOTROPICA 49(2): 206–216 2017 10.1111/btp.12397 Barriers to dispersal of rain forest butterflies in tropical agricultural landscapes Sarah A. Scriven1,3, Colin M. Beale1, Suzan Benedick2, and Jane K. Hill1 1 Department of Biology, University of York, York YO10 5DD, UK 2 Faculty of Sustainable Agriculture, Universiti Malaysia Sabah, Beg Berkunci No. 3, 90509, Sandakan, Sabah, Malaysia ABSTRACT Fragmentation of natural habitats can be detrimental for species if individuals fail to cross habitat boundaries to reach new locations, thereby reducing functional connectivity. Connectivity is crucial for species shifting their ranges under climate change, making it impor- tant to understand factors that might prevent movement through human-modified landscapes. In tropical regions, rain forests are being fragmented by agricultural expansion, potentially isolating populations of highly diverse forest-dependent species. The likelihood of crossing habitat boundaries is an important determinant of species dispersal through fragmented landscapes, and so we examined movement across rain forest-oil palm plantation boundaries on Borneo by using relatively mobile nymphalid butterflies as our model study taxon. We marked 1666 individuals from 65 species, and 19 percent (100/527) of recaptured individuals crossed the boundary. Boundary crossing was relatively frequent in some species, and net movement of individuals was from forest into plantation. However, boundary crossing from forest into plantation was detected in less than 50 percent (12/28) of recaptured species and was dominated by small-sized butterfly species whose larval host plants occurred within plantations. Thus, while oil palm plantations may be relatively permeable to some species, they may act as barriers to the movement of forest-dependent species (i.e., species that require rain forest habitat to breed), highlighting the importance of maintaining forest connectivity for conserving rain forest species.
    [Show full text]
  • Governing New Guinea New
    Governing New Guinea New Guinea Governing An oral history of Papuan administrators, 1950-1990 Governing For the first time, indigenous Papuan administrators share their experiences in governing their country with an inter- national public. They were the brokers of development. After graduating from the School for Indigenous Administrators New Guinea (OSIBA) they served in the Dutch administration until 1962. The period 1962-1969 stands out as turbulent and dangerous, Leontine Visser (Ed) and has in many cases curbed professional careers. The politi- cal and administrative transformations under the Indonesian governance of Irian Jaya/Papua are then recounted, as they remained in active service until retirement in the early 1990s. The book brings together 17 oral histories of the everyday life of Papuan civil servants, including their relationship with superiors and colleagues, the murder of a Dutch administrator, how they translated ‘development’ to the Papuan people, the organisation of the first democratic institutions, and the actual political and economic conditions leading up to the so-called Act of Free Choice. Finally, they share their experiences in the UNTEA and Indonesian government organisation. Leontine Visser is Professor of Development Anthropology at Wageningen University. Her research focuses on governance and natural resources management in eastern Indonesia. Leontine Visser (Ed.) ISBN 978-90-6718-393-2 9 789067 183932 GOVERNING NEW GUINEA KONINKLIJK INSTITUUT VOOR TAAL-, LAND- EN VOLKENKUNDE GOVERNING NEW GUINEA An oral history of Papuan administrators, 1950-1990 EDITED BY LEONTINE VISSER KITLV Press Leiden 2012 Published by: KITLV Press Koninklijk Instituut voor Taal-, Land- en Volkenkunde (Royal Netherlands Institute of Southeast Asian and Caribbean Studies) P.O.
    [Show full text]
  • New Taxa Described by Günther Theischinger (Update 2016)
    New taxa described by Günther Theischinger (update 2016) Taxa, mostly of genus and species group, described as new: up to end of 2016: 41+, 729+ ODONATA, Aeshnidae Afroaeschna Peters & Theischinger, Odonatologica 40(3): 229 (2011). Agyrtacantha browni Marinov & Theischinger, International Dragonfly Fund - Report 53:2 (2012). Agyrtacantha picta Theischinger & Richards, Odonatologica xxx (2017). Gynacantha heros Theischinger & Richards, Odonatologica 41 (4): 356 (2012). Gynacantha nourlangie Theischinger & Watson, in Watson et al., The Australian Dragonflies: 41 (1991). Gynacantha nuda Theischinger & Richards, Odonatologica 45 (3/4): 318 (2016). Pinheyschna Peters & Theischinger, Odonatologica 40(3): 232 (2011). Pinheyschna waterstoni Peters & Theischinger, Odonatologica 40(3): 235 (2011). Zosteraeschna Peters & Theischinger, Odonatologica 40(3): 241 (2011). ODONATA, Argiolestidae Argiolestes angulatus Theischinger & Richards, in Tyagi, B.K. (ed.): Odonata Biology of Dragonflies: 34 (2007). Argiolestes fornicatus Theischinger & Richards, in Tyagi, B.K. (ed.): Odonata Biology of Dragonflies: 36 (2007). Argiolestes indentatus Theischinger & Richards, Odonatologica 35(1): 386 (2006). Argiolestes trigonalis Theischinger & Richards, Odonatologica 37(2): 168 (2008). Austroargiolestes brookhousei Theischinger & O'Farrell, Odonatologica 15 (4): 409 (1986). Austroargiolestes christine Theischinger & O'Farrell, Odonatologica 15 (4): 394 (1986). Austroargiolestes elke Theischinger & O'Farrell, Odonatologica 15 (4): 396 (1986). Austroargiolestes isabellae
    [Show full text]
  • DNA Barcoding Confirms Polyphagy in a Generalist Moth, Homona Mermerodes (Lepidoptera: Tortricidae)
    Molecular Ecology Notes (2007) 7, 549–557 doi: 10.1111/j.1471-8286.2007.01786.x BARCODINGBlackwell Publishing Ltd DNA barcoding confirms polyphagy in a generalist moth, Homona mermerodes (Lepidoptera: Tortricidae) JIRI HULCR,* SCOTT E. MILLER,† GREGORY P. SETLIFF,‡ KAROLYN DARROW,† NATHANIEL D. MUELLER,§ PAUL D. N. HEBERT¶ and GEORGE D. WEIBLEN** *Department of Entomology, Michigan State University, 243 Natural Sciences Building, East Lansing, Michigan 48824, USA, †National Museum of Natural History, Smithsonian Institution, Box 37012, Washington, DC 20013-7012, USA, ‡Department of Entomology, University of Minnesota, 1980 Folwell Avenue, Saint Paul, Minnesota 55108–1095 USA, §Saint Olaf College, 1500 Saint Olaf Avenue, Northfield, MN 55057, USA,¶Department of Integrative Biology, University of Guelph, Guelph, Ontario, Canada N1G2W1, **Bell Museum of Natural History and Department of Plant Biology, University of Minnesota, 220 Biological Sciences Center, 1445 Gortner Avenue, Saint Paul, Minnesota 55108–1095, USA Abstract Recent DNA barcoding of generalist insect herbivores has revealed complexes of cryptic species within named species. We evaluated the species concept for a common generalist moth occurring in New Guinea and Australia, Homona mermerodes, in light of host plant records and mitochondrial cytochrome c oxidase I haplotype diversity. Genetic divergence among H. mermerodes moths feeding on different host tree species was much lower than among several Homona species. Genetic divergence between haplotypes from New Guinea and Australia was also less than interspecific divergence. Whereas molecular species identification methods may reveal cryptic species in some generalist herbivores, these same methods may confirm polyphagy when identical haplotypes are reared from multiple host plant families. A lectotype for the species is designated, and a summarized bibliography and illustrations including male genitalia are provided for the first time.
    [Show full text]
  • Hymenoptera: Formicidae) Along an Elevational Gradient at Eungella in the Clarke Range, Central Queensland Coast, Australia
    RAINFOREST ANTS (HYMENOPTERA: FORMICIDAE) ALONG AN ELEVATIONAL GRADIENT AT EUNGELLA IN THE CLARKE RANGE, CENTRAL QUEENSLAND COAST, AUSTRALIA BURWELL, C. J.1,2 & NAKAMURA, A.1,3 Here we provide a faunistic overview of the rainforest ant fauna of the Eungella region, located in the southern part of the Clarke Range in the Central Queensland Coast, Australia, based on systematic surveys spanning an elevational gradient from 200 to 1200 m asl. Ants were collected from a total of 34 sites located within bands of elevation of approximately 200, 400, 600, 800, 1000 and 1200 m asl. Surveys were conducted in March 2013 (20 sites), November 2013 and March–April 2014 (24 sites each), and ants were sampled using five methods: pitfall traps, leaf litter extracts, Malaise traps, spray- ing tree trunks with pyrethroid insecticide, and timed bouts of hand collecting during the day. In total we recorded 142 ant species (described species and morphospecies) from our systematic sampling and observed an additional species, the green tree ant Oecophylla smaragdina, at the lowest eleva- tions but not on our survey sites. With the caveat of less sampling intensity at the lowest and highest elevations, species richness peaked at 600 m asl (89 species), declined monotonically with increasing and decreasing elevation, and was lowest at 1200 m asl (33 spp.). Ant species composition progres- sively changed with increasing elevation, but there appeared to be two gradients of change, one from 200–600 m asl and another from 800 to 1200 m asl. Differences between the lowland and upland faunas may be driven in part by a greater representation of tropical and arboreal-nesting sp ecies in the lowlands and a greater representation of subtropical species in the highlands.
    [Show full text]