DOCSLIB.ORG

Soil Macrofaunal Assemblage in Selected Landuse Systems in Kerala

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text

Load more

SOIL MACROFAUNAL ASSEMBLAGE IN SELECTED LAND USE SYSTEMS IN KERALA: SPATIAL PATTERN AND STRUCTURAL DYNAMICS I'hl) thl''';!'> 'iIIHilllt L' tl h\' MUJEEB RAHMAN P ~11111 K FR. Department of Forest Entomology. Fore st Health Division KERALA FOREST RESEARCH INSTITUTE Peechi·680 653.Thrissur. Kerala. lnd ia COCHIN UNIVERSITY OF SCIENCE AND TECHNOLOGY (CUSAT) COCHIN. KERALA August 2010 CERTIFICATE I hereby certify that the thesis entitled "SOIL MACROFAUNAL ASSEMBLAGE IN SELECTED LANDUSE SYSTEMS IN KERALA: SPATIAL PATTERN AND STRUCTURAL DYNAMICS" submitted to the Cochin University of Science and Technology (CUSAT), Cochin, Kerala, India for the award of Doctor of Philosophy is a record of original bona fide research work carried out by Mr. Mujeeb Rahman, P under my supervision and guidance. This thesis has not been submitted elsewhere for the award of any diploma, degree, associateship or any other similar title to any candidate of this or any other University. Place: Peechi Dr. RV Varma Date: 2-&I4&\:l.Olo Supervising Guide DECLARATION I hereby declare that the thesis entitled "SOIL MACROFAUNAL ASSEMBLAGE IN SELECTED LANDUSE SYSTEMS IN KERALA: SPATIAL PATTERN AND STRUCTURAL DYNAMICS" submitted to the Cochin University of Science and Technology (CUSAT), Cochin, Kerala, India for the award of Doctor of Philosophy is a record of independent research work carried out by me under the guidance of Dr. R.V. Varma, Programme Coordinator, Forest Health Division, Kerala Forest Research Institute, Peechi, Thrissur. This thesis has not been submitted elsewhere for the award of any diploma, degree, associateship or similar title. Place: Peechi Date: 2' 1& 12.01~ Mujeeb Rahman P ACKNOWLEDGEMENTS This thesis arose as part of years of research carried out since I joined Kerala Forest Research Institute as a Junior Research Fellow under Dr. RV Varma, Programme Coordinator, Forest Health Division. Foremost, I would like to record my gratitude to Dr. RV Varma for persuading me to register for PhD and for his supervision. This thesis would not have been possible deprived of the help, support and patience of my supervising guide, who gave me ample freedom to work, spend lot of time to correct the thesis during his hectic schedule. I am indebted to him more than he knows. Many thanks to Dr. KV Sankaran, Director, KFRI and Dr. JK Sharma, Former Director for their advice, interest in my research and for providing facilities. I gratefully acknowledge Dr. UM Chandrashekara, Scientist in Charge, KFRI Subcentre, Nilambur, who was the PI of the research project, in which I was engaged and with whom I spend most of my research time. His crucial contributions and involvement has triggered and nourished thoughts and activities. I extend my sincere thanks to him. I would like to express my gratitude to members of Doctoral and Research Committees, especially, to Dr. VV SUdheendrakumar (HoD, Forest Entomology Department, KFRI) and Dr. Jose Kallarackal (Emeritus SCientist, KFRI) for their valuable contribution, advice and suggestions. I am grateful to Dr. EA Jayson, Chairman of PhD programme, for his timely help and constructive suggestions in the due course of work. Special thanks to Dr. Ammini Joseph and Or. Suguna Yesodharan ofSES, CUSAT for their help and support. I would like to thank Dr. KG Saxena (Professor, SES, JNU) and KS Rao (Professor, Delhi University) for their moral support. I owe my deepest gratitude to Dr. Sr. KA Karmaly (St Xavier's, Aluva), Or. JM Julkd (Emeritus Scientist, ZSI, Solan), Dr. R Paliwal (ZSI, Kolkata) and Dr. Radha D Kale (UAS, Bangalore) for identifying specimens and teaching me basic taxonomy and ecology. I was delighted to interact with Or. GW Sileshi (ICRAF, Malawi) and Dr. Jens Dauber (Institute of Biodiversity, vTl, Germany), and acknowledge their encouragement, help and interest in my work. I convey my special acknowledgement to Dr. George Mathew, Dr. TV Sajeev and Dr. M Sivaram of KFRI for their help and support during the study. I am obliged to staffs of KFRI library and LAN for their cooperation. I am indebted to my co-workers especially, Baiju, Santhosh and Shanavas for support in the field and lab. It is pleasure to thank them. I would like to thank residents of Karakkode area, for allowing me to conduct experiments and to collect samples from their plot, exchanging information and seamless help during field work. I am grateful to all my lab buddies and friends at KFRI, especially, Mary, Swaran, Siyad, Raju, Manju, Suganthan, Babu ...... (1 know, the list is incomplete). I am indebted to my parents for their vision to educate me. It is an honour to thanks my brothers and in laws and more than that their kids Anu, Sonu and Raniya for innocent love and affection. This work was completed utilizing fund of UNEP /GEF /TSBF-CIAT /JNU /KFRI coordinated programme on conservation and sustainable management of belowground biodiversity. I thank the authorities for financial support and excellent training. Last but not least, I thank God for His blessings. You have made my life more bountiful. May your name be exalted, honored, and glorified. CONTENTS LIST OF TABLES LIST OF FIGURES Chapter I INTRODUCTION 14 Chapter 11 REVIEW OF LITERATURE 5-28 Chapter 111 GENERAL DESCRIPTION OF THE STUDY AREA 29-35 Chapter IV METHODS 36-42 Chapter V RESULTS 43-86 Chapter VI GENERAL DISCUSSION 87-93 Chapter VII CONCLUSIONS 94-95 SUMMARY 96-100 REFERENCES 101-121 APPENDIX A-I PLATES DETAILED CONTENT INTRODUCTION ........................................................................................................01-04 Objectives 03 Scope of the thesis 03 REVIEW OF LITERATURE ...........................................................................................05-28 2.1. Background 05 2.2. Importance of soil fauna as a component of ecosystem 06 2.2.1. Definition for soil fauna 07 2.2.2. Diversity of soil fauna 07 2.2.3. Classification of soil biota 08 2.2.4. Soil biota in ecosystem processes 09 2.3. Soil faunal studies-past attempts and present status 11 2.3.1. Soil faunal studies in India 12 2.4. Soil macrofauna as ecosystem engineers 13 2.4.1. Earthworm, Termite and Ant 14 2.S. Characterization of soil fauna 16 2.6. Spatial segregation of soil fauna 17 2.6.1. Stress and Disturbances 18 2.6.2. Chemical Fertilizers and Pesticides 19 2.6.3. Effect of moisture and temperature 20 2.6.4. Succession and dispersal of soil fauna 20 2.7. Threats on soil faunal biodiversity 21 2.7.1. Landuse change and intensive land utilization 21 2.7.1.1. Impact of agriculture on soil biodiversity 23 2.7.2. Exotic plants and invasive species 24 2.7.3. Global change and soil fauna 24 2.8. Aboveground vs belowground biodiversity 2.5 2.8.1. Correlation between above and belowground diversity 2S 2.8.2. Aboveground-belowground feedback 26 2.9. Soil invertebrates as indicator species 27 2.10. Economic aspects of soil biodiversity 28 2.11. Conservation needs of soil biodiversity 28 GENERAL DESCRIPTION OF THE STUDY AREA ....................................................... 29-35 3.1. The Nilgiri Biosphere Reserve (NBR) 29 3.1.1. Kerala part of Nilgiri Biosphere Reserve 29 31 3.3. General climatic pattern 32 3.4. Biological Resources 33 3.5. Landuse history 34 3.5.1. Changes in crop pattern 34 3.5.2. Changing pattern in the study area 35 METHODS ..................................................................................................................36-42 4.1. Site "p!ection 36 4.2. Faunal sampling 37 4.2.1. Soil monoliths 37 4.2.2. Pit fall trapping 39 4.2.3. Line transect for termite sampling 39 4.3. Study of environmental parameters 39 4.3.1. Climatic factors 39 4.3.2. Physico-chemical aspects of soil 39 4.3.3. Assessment of management characteristics 40 4.4. Data analyses 40 RESULTS .....................................................................................................................43-86 5.1. Diversity of ecosystems engineers 43 5.1.1. Ant diversity and community structure 43 5.1.1.1. Abundance of ants in different landuse systems 43 5.1.1.2. Habitat-wise distribution of ant species 45 5.1.2. Earthworm diversity and community structure 47 5.1.2.1. Habitat-wise distribution and functional categorization 47 5.1.2.2. Abundance of earthworms in different landuse systems 48 5.1.3. Termite diversity and community structure 48 5.1.3.1. Habitat-wise distribution of termites 49 5.1.3.2. Abundance of termites in different landuse systems 50 5.1.4. Discussion 50 5.2. Spatial distribution of soil fauna 55 5.2.1. Influence of habitat heterogeneity and landscape structure 55 5.2.1.1. Variation among ecosystems 56 5.2.1.1.1. Variation in the richness of supra-specific taxa 56 5.2.1.1.2. Variation in abundance of supra-specific taxa 56 5.2.1.2. Variation among landuse practices 57 5.2.1.2.1. Variation in richness and abundance 57 5.2.1.2.2. Variation in abundance 58 5.2.2. Classification and ordination of landuse practices 63 5.2.3. Discussion 68 5.3. Influence ofEnvironmental and Management factors 70 5.3.1. Soil and Climatic pattern 70 5.3.1.1. Edaphic factors of the study area 70 5.3.1.2. General climatic pattern 71 5.3.2. Management attributes of landuse systems 72 5.3.3. Interpreting the variation 73 5.3.4. Model Building 78 5.3.4.1. Testing the significance of model 80 5.3.5. Interpretation of Constraints 81 5.3.6. Variance partitioning 83 5.3.9. Discussion 84 GENERAL DiSCUSSiON ............................................................................................. 87-93 CO NClU SI ON S....................................................................... .................................... 94-95 SUMMARy ................................................................................................................96-100 REF EREN CES ........................................................................................................... 101-121 APPENDIX ... ...............................................................................................................A-I PLATES LIST OF TABLES # Description Page 3.1. Monthly mean values of relative humidity 33 4.1.
Recommended publications
  • In Indonesian Grasslands with Special Focus on the Tropical Fire Ant, Solenopsis Geminata

    In Indonesian Grasslands with Special Focus on the Tropical Fire Ant, Solenopsis Geminata

    The Community Ecology of Ants (Formicidae) in Indonesian Grasslands with Special Focus on the Tropical Fire Ant, Solenopsis geminata. By Rebecca L. Sandidge A dissertation submitted in partial satisfaction of the requirements for the degree of Doctor of Philosophy in Environmental Science, Policy, and Management in the Graduate Division of the University of California, Berkeley Committee in charge: Professor Neil D. Tsutsui, Chair Professor Brian Fisher Professor Rosemary Gillespie Professor Ellen Simms Fall 2018 The Community Ecology of Ants (Formicidae) in Indonesian Grasslands with Special Focus on the Tropical Fire Ant, Solenopsis geminata. © 2018 By Rebecca L. Sandidge 1 Abstract The Community Ecology of Ants (Formicidae) in Indonesian Grasslands with Special Focus on the Tropical Fire Ant, Solenopsis geminata. by Rebecca L. Sandidge Doctor of Philosophy in Environmental Science Policy and Management, Berkeley Professor Neil Tsutsui, Chair Invasive species and habitat destruction are considered to be the leading causes of biodiversity decline, signaling declining ecosystem health on a global scale. Ants (Formicidae) include some on the most widespread and impactful invasive species capable of establishing in high numbers in new habitats. The tropical grasslands of Indonesia are home to several invasive species of ants. Invasive ants are transported in shipped goods, causing many species to be of global concern. My dissertation explores ant communities in the grasslands of southeastern Indonesia. Communities are described for the first time with a special focus on the Tropical Fire Ant, Solenopsis geminata, which consumes grass seeds and can have negative ecological impacts in invaded areas. The first chapter describes grassland ant communities in both disturbed and undisturbed grasslands.
  • Taxonomic Recovery of the Ant Cricket Myrmecophilus Albicinctus from M. Americanus (Orthoptera, Myrmecophilidae)

    Taxonomic Recovery of the Ant Cricket Myrmecophilus Albicinctus from M. Americanus (Orthoptera, Myrmecophilidae)

    A peer-reviewed open-access journal ZooKeysTaxonomic 589: 97–106 (2016)recovery of the ant cricket Myrmecophilus albicinctus from M. americanus... 97 doi: 10.3897/zookeys.589.7739 SHORT COMMUNICATION http://zookeys.pensoft.net Launched to accelerate biodiversity research Taxonomic recovery of the ant cricket Myrmecophilus albicinctus from M. americanus (Orthoptera, Myrmecophilidae) Takashi Komatsu1, Munetoshi Maruyama1 1 Kyushu University, Hakozaki 6-10-1, Higashi-ku, Fukuoka 812-8581 Fukuoka, Japan Corresponding author: Takashi Komatsu ([email protected]) Academic editor: F. Montealegre-Z | Received 8 January 2016 | Accepted 12 April 2016 | Published 16 May 2016 http://zoobank.org/9956EB10-A4CE-4933-A236-A34D809645E8 Citation: Komatsu T, Maruyama M (2016) Taxonomic recovery of the ant cricket Myrmecophilus albicinctus from M. americanus (Orthoptera: Myrmecophilidae). ZooKeys 589: 97–106. doi: 10.3897/zookeys.589.7739 Abstract Myrmecophilus americanus and M. albicinctus are typical myrmecophilous insects living inside ant nests. These species are ecologically important due to the obligate association with tramp ant species, includ- ing harmful invasive ant species. However, the taxonomy of these “white-banded ant crickets” is quite confused owing to a scarcity of useful external morphological characteristics. Recently, M. albicinctus was synonymized with M. americanus regardless of the apparent host use difference. To clarify taxonomical relationship between M. albicinctus and M. albicinctus, we reexamined morphological characteristics of both species mainly in the viewpoint of anatomy. Observation of genitalia parts, together with a few external body parts, revealed that M. albicinctus showed different tendency from them of M. americanus. Therefore, we recover M. albicinctus as a distinct species on the basis of the morphology.
  • Studies on Roadside Soil Inhabiting Ants (Hymenoptera: Formicidae) of Kolkata with Reference to the Effects of Lead Emitted Through Automobile Exhaust

    Studies on Roadside Soil Inhabiting Ants (Hymenoptera: Formicidae) of Kolkata with Reference to the Effects of Lead Emitted Through Automobile Exhaust

    OCCASIONAL PAPER No. 257 Studies on roadside soil inhabiting ants (Hymenoptera: Formicidae) of Kolkata with reference to the effects of lead emitted through automobile exhaust SOUMYENDRA NATH GHOSH ACHINTYA CHATTOPADHYAY DILIP KR. BHATTACHARYYA . ZOOLOGICAL SURVEY OF INDIA OCCASIONAL PAPER No. 257 RECORDS OF THE ZOOLOGICAL SURVEY OF INDIA Studies on roadside soil inhabiting ants (Hymenoptera: Formicidae) of Kolkata with reference to the effects of lead emitted through automobile exhaust SOUMYENDRA NATH GHOSH ACHINTYA CHATTOPADHYAY AND DILIP KR. BHATTACHAR¥YA Zoological Survey of India, M. Block, New Alipore~ Kolkata-700 053 Edited by the Director, Zoological Survey of india, Kolkata Zoological Survey of India Kolkata CITATION Ghosh, Soumyendra Nath, Chattopadhyay, Achintya, and Bhattacharyya, Dilip Kr. 2007. Studies on roadside soil inhabiting ants (Hymenoptera: Formicidae) of Kolkata with reference to the effects of lead emitted through automobile exhaust. Ree. zool. Surv. India, Oec. Paper No. 257 : 1-149. Published : January, 2007 ISBN 81-8171-132-7 © Govt. of India, 2007 ALL RIGHTS RESERVED • No part of this publication may be reproduced stored in a retrieval system or transmitted in any form or by any means, electronic, mechanical, photocopying, recording or otherwise without the prior permission of the publisher. • This book is sold subject to the condition that it shall not, by way of trade, be lent, resold, hired out or otherwise disposed of without the publisher's consent, in any form of binding or cover other than that in which, it is published. • The correct price of this publication is the price printed on this page. Any revised price indicated by a rubber stamp or by a sticker or by any other means is incorrect and should be unacceptable.
  • List of Indian Ants (Hymenoptera: Formicidae) Himender Bharti

    List of Indian Ants (Hymenoptera: Formicidae) Himender Bharti

    List of Indian Ants (Hymenoptera: Formicidae) Himender Bharti Department of Zoology, Punjabi University, Patiala, India - 147002. (email: [email protected]/[email protected]) (www.antdiversityindia.com) Abstract Ants of India are enlisted herewith. This has been carried due to major changes in terms of synonymies, addition of new taxa, recent shufflings etc. Currently, Indian ants are represented by 652 valid species/subspecies falling under 87 genera grouped into 12 subfamilies. Keywords: Ants, India, Hymenoptera, Formicidae. Introduction The following 652 valid species/subspecies of myrmecology. This species list is based upon the ants are known to occur in India. Since Bingham’s effort of many ant collectors as well as Fauna of 1903, ant taxonomy has undergone major myrmecologists who have published on the taxonomy changes in terms of synonymies, discovery of new of Indian ants and from inputs provided by taxa, shuffling of taxa etc. This has lead to chaotic myrmecologists from other parts of world. However, state of affairs in Indian scenario, many lists appeared the other running/dynamic list continues to appear on web without looking into voluminous literature on http://www.antweb.org/india.jsp, which is which has surfaced in last many years and currently periodically updated and contains information about the pace at which new publications are appearing in new/unconfirmed taxa, still to be published or verified. Subfamily Genus Species and subspecies Aenictinae Aenictus 28 Amblyoponinae Amblyopone 3 Myopopone
  • Hymenoptera: Formicidae) Inferred from Morphological and Genetic Evidence

    Hymenoptera: Formicidae) Inferred from Morphological and Genetic Evidence

    Zoological Studies 58: 11 (2019) doi:10.6620/ZS.2019.58-11 Open Access Cryptic Diversity in the Widespread Asian Ant Crematogaster rothneyi (Hymenoptera: Formicidae) Inferred from Morphological and Genetic Evidence Shingo Hosoishi1,* and Kazuo Ogata1 1Institute of Tropical Agriculture, Kyushu University, 744 Motooka, Nishi-ku, Fukuoka 819-0395 Japan. *Correspondence: E-mail: [email protected] (Hosoishi) Received 28 January 2019 / Accepted 7 May 2019 / Published 24 June 2019 Communicated by John Wang The myrmicine species Crematogaster rothneyi is one of the most widely distributed ants in Asia, but it has rarely been collected in the field. Its distribution range covers South and SoutheastAsia, extending approximately 5,000 km from India in the west to Sulawesi in the east. Despite this wide distribution range, C. rothneyi has been treated as a single taxonomic species, and no combined morphological or molecular analysis has been conducted to assess whether any intraspecific variation exists. The sequence divergences of C. rothneyi populations, mainly obtained from Southeast Asia, were investigated by analyzing 387 bp and 175 bp sequences of the 12S ribosomal RNA and cytochrome c oxidase subunit (COI) genes, respectively. Phylogenetic analysis indicated that the C. rothneyi populations were separated into three groups: group I from Thailand and Cambodia, group II from Bangladesh and Myanmar, and group III from Krakatau and Sulawesi. Groups II and III were recovered as a single clade, sister to group I. The interspecific divergences were 7.3% to 8.5% for 12S and 14.5% to 23.3% for COI between most C. rothneyi specimens and Cambodian specimens, while divergence for 12S was 3.5% between Thai and Cambodian specimens.
  • Comparison of Ant (Hymenoptera: Formicidae) Diversity in Different Habitats of Machad Region of Thrissur

    Comparison of Ant (Hymenoptera: Formicidae) Diversity in Different Habitats of Machad Region of Thrissur

    Bulletin of Environment, Pharmacology and Life Sciences Bull. Env. Pharmacol. Life Sci., Vol 5 [2] January 2016: 28-33 ©2015 Academy for Environment and Life Sciences, India Online ISSN 2277-1808 Journal’s URL:http://www.bepls.com CODEN: BEPLAD Global Impact Factor 0.533 Universal Impact Factor 0.9804 ORIGINAL ARTICLE OPEN ACCESS Comparison of Ant (Hymenoptera: Formicidae) Diversity in Different Habitats of Machad Region of Thrissur Nayana Paul1, Presty John2, Baaby Job 3 & P. Lakshmi Devi Menon4 1, 3, 4 Department of Zoology, Vimala College, Thrissur-680009 2 Forest Entomology, Kerala Forest Research Institute, Peechi- 680653 E-mail- [email protected] ABSTRACT We studied the Formicidae diversity of Machad region of Thrissur. Five different habitats paddy, banana, rubber, coconut, vegetables garden (pea, ladies finger and brinjal) were selected. 25 species of Formicidae belonging to four subfamilies (Formicinae, Myrmicinae and Ponerinae) were collected. The distribution of species in the different subfamilies showed a dominance of Formicinae with 4 genus (15 species) followed by Myrmicinae with 5 genera (6 species), Ponerinae with 2 genera (3 species) and Pseudomyrmecinae with least species (1 species). The genus Camponotus (Mayr) was the most abundant genera with 12 species. Findings of this preliminary study indicated that much more detailed study should be conducted to investigate the diversity of ants of Macha region of Thrissur. Keywords: Formicidae, Diversity, Camponotus, Dominance. Received 14.11.2015 Revised 21.12.2015 Accepted 27.12. 2015 INTRODUCTION Ants are one of the most diverse group of insects with approximately 13,152 species [1]. They thrive in most ecosystems, and may form 15-25% of the terrestrial animal biomass [2].
  • Ants in the City, a Preliminary Checklist of Formicidae (Hymenoptera) in Macau, One of the Most Heavily Urbanized Regions of the World

    Ants in the City, a Preliminary Checklist of Formicidae (Hymenoptera) in Macau, One of the Most Heavily Urbanized Regions of the World

    ASIAN MYRMECOLOGY Volume 9, e009014, 2017 ISSN 1985-1944 | eISSN: 2462-2362 © Chi-Man Leong, Shiuh-Feng Shiao DOI: 10.20362/am.009014 and Benoit Guénard Ants in the city, a preliminary checklist of Formicidae (Hymenoptera) in Macau, one of the most heavily urbanized regions of the world Chi-Man Leong1, Shiuh-Feng Shiao1 and Benoit Guénard2* 1National Taiwan University, Department of Entomology, No.1, Sec.4, Roosevelt Road, Taipei, Taiwan 2University of Hong Kong, School of Biological Sciences, Kadoorie Biological Sciences Building, Pok Fu Lam Road, Hong Kong SAR, China *Corresponding author: [email protected] ABSTRACT. Macau is a small territory in South East China and one of the most densely populated regions in the world. Previous studies on insect groups have shown that a relatively diverse, yet specific, fauna could still survive in this region. However, to this point, studies on the myrmecofauna of Macau are scarce and to date no species checklist exists. Here, we present the first checklist of Macanese ant species by combining results from recent ant surveys using hand- collections and Winkler extractors with published records. During the surveys, 82 species and morphospecies belonging to 37 genera and 8 subfamilies have been collected, with 37 species representing new records for Macau, including an interesting new record of an undescribed Leptanilla species, the second record of the Leptanillinae subfamily for South East China. To date, Macanese ants comprise 105 species/morphospecies and 8 subspecies, after the removal of dubious records present in the literature (though some misidentifications may remain). While still likely incomplete, these results represent the most comprehensive list of ants for Macau, and a baseline for future research on ant diversity in heavily urbanized environments and for understanding the potential consequences of urbanization on native and non-native diversity in Asia.
  • A Check List of the Ant Genus Crematogaster in Asia (Hymenoptera: Formicidae)

    A Check List of the Ant Genus Crematogaster in Asia (Hymenoptera: Formicidae)

    Bull. Inst. Trop. Agr., Kyushu Univ. 32: 43-83, 2009 43 A check list of the ant genus Crematogaster in Asia (Hymenoptera: Formicidae) Shingo HOSOISHI 1) and Kazuo OGATA1) Abstract A check list of the Asian species of the ant genus Crematogater is presented. The list covers the species-group names of the genus in Asia including the biogeographical areas of the eastern part of the Palearctic Region, the Oriental Region, and the western part of the Indo-Australian Region. A total of 206 names, comprising 145 species and 61 subspecies, is recognized. The list also provides information on the distribution. Introduction The ant genus Crematogaster was established by Lund in 1831, with the type-species, Formica scu- tellaris, which was subsequently designated by Bingham in 1903. The genus is one of mega-taxa of ants including 989 described names of species and subspecies from the world, in which there are 780 valid, 85 junior and 124 unavailable names according to the latest check list (Bolton et al., 2006). The genus is unique in having a characteristic connection of the postpetiol to the dorsal surface of the gaster, and easy to distinguish from other genera of the subfamily Myrmicinae. In spite of the dis- tinctness of the genus, the species level taxonomy is quite incomplete, and thus the exact figure of the taxa is still not clear. In Asia, biogeographical information of taxa is increasingly needed for studies of biodiversity, in particular, the species inventory of a local area. The term Asia is not biogeographical unit but a compos- ite of the eastern part of the Palearctic Region, the Oriental Region, and the western part of the Indo- Australian Region.
  • Download PDF File (151KB)

    Download PDF File (151KB)

    Myrmecological News 14 13-19 Vienna, January 2011 A comparison of pitfall traps with different liquids for studying ground-dwelling ants (Hymenoptera: Formicidae) You-qing CHEN, Qiao LI, Si-ming WANG & Xing-yin ZHOU Abstract The ability of different liquids in pitfall traps to provide a relatively unbiased representation of ant species foraging activity is poorly understood. We examined the effectiveness of a sugar / vinegar solution, commonly used in ant studies in China, by comparing its catches with those using ethylene glycol in lac agroecosystems in Yunnan Province, China. A total of 11052 individual ants were collected in the traps with sugar / vinegar mixture, representing 82 species, while 6102 individuals were captured in traps with ethylene glycol, representing 75 species. Individual-based curves as well as sample-based curves were so close that the two solutions showed no significant difference in species capture efficiency. Ordination analysis revealed that ant community composition was similar for captures by the two liquids. Liquid type had a significant effect on two of the six most abundant species, but this was confounded by traps with different liquids being placed in different transects. We conclude that the use of sugar / vinegar in traps provides a relatively unbiased representation of ant foraging activity, and is a valid option if other commonly used liquids are unavailable. Key words: Capture effect, ethylene glycol, pitfall trapping, sugar / vinegar mixture, trap liquid. Myrmecol. News 14: 13-19 (online 20 May 2010) ISSN 1994-4136 (print), ISSN 1997-3500 (online) Received 12 February 2010; revision received 10 March 2010; accepted 10 March 2010 Dr.

  • Of Sri Lanka: a Taxonomic Research Summary and Updated Checklist

    ZooKeys 967: 1–142 (2020) A peer-reviewed open-access journal doi: 10.3897/zookeys.967.54432 CHECKLIST https://zookeys.pensoft.net Launched to accelerate biodiversity research The Ants (Hymenoptera, Formicidae) of Sri Lanka: a taxonomic research summary and updated checklist Ratnayake Kaluarachchige Sriyani Dias1, Benoit Guénard2, Shahid Ali Akbar3, Evan P. Economo4, Warnakulasuriyage Sudesh Udayakantha1, Aijaz Ahmad Wachkoo5 1 Department of Zoology and Environmental Management, University of Kelaniya, Sri Lanka 2 School of Biological Sciences, The University of Hong Kong, Hong Kong SAR, China3 Central Institute of Temperate Horticulture, Srinagar, Jammu and Kashmir, 191132, India 4 Biodiversity and Biocomplexity Unit, Okinawa Institute of Science and Technology Graduate University, Onna, Okinawa, Japan 5 Department of Zoology, Government Degree College, Shopian, Jammu and Kashmir, 190006, India Corresponding author: Aijaz Ahmad Wachkoo ([email protected]) Academic editor: Marek Borowiec | Received 18 May 2020 | Accepted 16 July 2020 | Published 14 September 2020 http://zoobank.org/61FBCC3D-10F3-496E-B26E-2483F5A508CD Citation: Dias RKS, Guénard B, Akbar SA, Economo EP, Udayakantha WS, Wachkoo AA (2020) The Ants (Hymenoptera, Formicidae) of Sri Lanka: a taxonomic research summary and updated checklist. ZooKeys 967: 1–142. https://doi.org/10.3897/zookeys.967.54432 Abstract An updated checklist of the ants (Hymenoptera: Formicidae) of Sri Lanka is presented. These include representatives of eleven of the 17 known extant subfamilies with 341 valid ant species in 79 genera. Lio- ponera longitarsus Mayr, 1879 is reported as a new species country record for Sri Lanka. Notes about type localities, depositories, and relevant references to each species record are given.
  • Monopterus Digress Us Sp

    Monopterus Digress Us Sp

    R,ecords of the Zoological Survey of ndia Volume 100 (Part 1-2) Edited by the Director, Zoological Survey ofIndia, Kolkata Zoological Survey of India Kolkata 2002 C 'TATION Editor~ Djrector 2002. Rec. zool. Surv. India Vo . 100 (Part 1- 2) : 1-228 (Published-Director, Zool. Surv. India, Kolkata) Published: June, 2002 © Government of India, 2002 ALL RIGHTS RESERVED • No part of this publication may be reproduced, stored in a retrieval system or t'ransmitted, in any form or by any means, electronic, .mechanical, photooopying, recording or otherwise without the prior permission of the publisher. This book is sold subject to the condition that it shan not, by way of trade, be lent, re·sold hired out or otherwise disposed of without ~he publisher's consent, in any form of binding or cover other than that in which it is published . • The corr,ect pricla of this publication is the pr,ice printed on this page. Any revised price indicated by a rubber stamp or by a sticker or by any other means is incorrect and should be unacceptable. PRICE Indian :Rs. 350.00 Foreign: $ 20..00;£ 15.00 Published at the Public.ation Division by the Director, Zoological Survey of India, 234/4, AJC Bose Road, 2nd MSO Building, (13th Floor), Nizam Palace, Kolkata-700 020 printed at East Indl.a Photo Composing Centre, 69, Sisir Bhaduri Sarani, Kolkata-700 006. COMPUTER SED DATA ON NATIONAL ZOOLO'GICAL COLLEC'T ON The National Zoological Collections comprisin,g nearly 15,000 types are housed in the Zoo),ogi,cal Survey of India, Kolkata and are properly maintained.
  • In Residential Area of Tarbela, Swabi: New Records from Pakistan

    In Residential Area of Tarbela, Swabi: New Records from Pakistan

    The Journal of Animal & Plant Sciences, 31(2): 2021, Page: 617-624 Rasheed et al., ISSN (print): 1018-7081; ISSN (online): 2309-8694The J. Anim. Plant Sci. 31(2):2021 DIVERSITY OF ANTS (HYMENOPTERA: FORMICIDAE) IN RESIDENTIAL AREA OF TARBELA, SWABI: NEW RECORDS FROM PAKISTAN S. B. Rasheed*, M. Ali, F. Zaidi And S. Noreen Department of Zoology, University of Peshawar, Peshawar. Pakistan. 25120. *corresponding Author email: [email protected] ABSTRACT Twenty-one species of ants, including nine new records from Pakistan were collected from residential colonies of Tarbela Power Station, Swabi. These species were classified into four subfamilies and thirteen genera. The most diverse genus was, Camponotus represented by four species i.e. Camponotus angusticollis Jerdon, 1851, Camponotus compressus Fabricius, 1787, Camponotus oblongus Forel, 1916, Camponotus sericeus Fabricius, 1798. Three species of Pheidole i.e. Pheidole binghami Forel, 1902, Pheidole sykesi and Pheidole sagei Forel, 1902, and two species each of Monomorium and Lepisiota i.e. Monomorium indicum Forel, 1902, Monomorium sagei Forel, 1890 and Lepisiota frauenfeldi Mayr, 1855, Lepisiota capensis Mayr, 1862 were reported in current study. Remaining ten genera i.e. Crematogaster, Meranoplus, Messor, Cataglyphis, Cardiocondyla, Aenictus, Polyrachis, Paratrechina, Nylanderia and Tapinoma were represented by single species each; Crematogaster subnuda Mayr,1878, Messor semirufus Smith, 1858, Cataglypus setipes Forel, 1894, Meranoplus bicolor Guerin-Meneville,1844, Cardiocondyla mauritanica Forel, 1890, Aenictus wroughtonii Forel,1890, Polyrachis hauxwelli Bingham, 1903, Paratrechina longicornis Latreille, 1802, Nylanderia indica (Forel, 1894) and Tapinoma indicum Forel (1895). The species first time recorded from Pakistan were Camponotus angusticollis, Lepisiota capensis, Messor semirufus, Pheidole sykesi, Monomorium sagei, Nylanderia indica and Tapinoma indicum.