DOCSLIB.ORG

Nabs 2004 Final

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Nabs 2004 Final CURRENT AND SELECTED BIBLIOGRAPHIES ON BENTHIC BIOLOGY 2005 Published September, 2006 North American Benthological Society 2 FOREWORD “Current and Selected Bibliographies on Benthic Biology” is published annu- ally for the members of the North American Benthological Society, and summarizes titles of articles published during the previous year. Pertinent titles prior to that year are also included if they have not been cited in previous reviews. I wish to thank each of the members of the NABS Literature Review Committee for providing bibliographic information for the 2005 NABS BIBLIOGRAPHY. I would also like to thank Elizabeth Wohlgemuth, INHS Librarian, and library assis- tants Anna Fitzsimmons, Jessica Beverly, and Elizabeth Day, for their assistance in putting the 2004 bibliography together. Membership in the North American Benthological Society may be obtained by contacting Ms. Lucinda B. Johnson, Natural Resources Research Institute, Uni- versity of Minnesota, 5013 Miller Trunk Highway, Duluth, MN 55811. Phone: 218/720-4251. email:[email protected]. Dr. Donald W. Webb, Editor NABS Bibliography Illinois Natural History Survey Center for Biodiversity 1816 South Oak Street Champaign, IL 61820 217/344-2154 e-mail: [email protected] 3 CONTENTS PERIPHYTON: Christine L. Weilhoefer, Environmental Science and Resources, Portland State University, Portland, O97207.................................5 ANNELIDA (Oligochaeta, etc.): Mark J. Wetzel, Center for Biodiversity, Illinois Natural History Survey, 1816 South Oak Street, Champaign, IL 61820.................................................................................................................8 ANNELIDA (Hirudinea): Donald J. Klemm, Ecosystems Research Branch (MS-642), Ecological Exposure Research Division, National Exposure Re- search Laboratory, Office of Research & Development, U.S. Environmental Protection Agency, 26 W. Martin Luther King Dr., Cincinnati, OH 45268- 0001 and William E. Moser, Section of Invertebrate Zoology, Department of Systematic Biology, P.O. Box 37012, National Museum of Natural History, Smithsonian Institution, 10th & Constitution Ave. NW, Washington, DC. 20013-7012......................................................................................................19 PLECOPTERA: Stanley W. Szczytko, College of Natural Resources, University of Wisconsin Stevens Point, Stevens Point, WI 54481 and Bill P. Stark, Department of Biological Sciences, Mississippi College, Clinton, MS 39058...........................................................................................20 EPHEMEROPTERA: Peter M. Grant, Department of Biological Sciences, Southwestern Oklahoma State University, Weatherford, OK 73096...............22 ODONATA: Kenneth J. Tennessen, 1949 Hickory Ave.Florence, AL 35630.......30 TRICHOPTERA: Andrew P. Nimmo, Department of Biological Sciences, University of Alberta, Edmonton, Alta. T6G 2E3...........................................36 MEGALOPTERA: Parley V. Winger, USGS-Pautuxent Wildlife Research Center Athens, Warnell School of Forest Resources, University of Georgia, Athens, GA 30602............................................................................................51 AQUATIC COLEOPTERA: Sharon Knight Jasper, School of Biological Sciences, Section of Integrative Biology, 141 Patterson Labs, The University of Texas at Austin, Austin, TX 78712-1064....................................................52 DIPTERA: Ceratopogonidae: Donald W. Webb, Center for Biodiversity, Illinois Natural History Survey, 1816 South Oak Street, Champaign, lL 61820................................................................................................................57 DIPTERA: Chironomidae: Donald W. Webb, Center for Biodiversity, Illinois Natural History Survey, 1816 South Oak Street, Champaign, lL 61820................................................................................................................58 DIPTERA: Other: Ben A. Foote, Department of Biological Sciences, Kent State University, Kent, OH 44242...........................................................68 MOLLUSCA: Kevin S. Cummings, Center for Biodiversity, Illinois Natural History Survey, 1816 South Oak Street, Champaign, 61820 ..........................70 ACARINA: Thomas W. Simmons, Department of Biology, Indiana University of Pennsylvania, 114 Weyandt Hall, Indiana, PA 15705......................................80 4 GENERAL AQUATIC ECOLOGY: Barry N. Brown, Science Librarian & Access Services Coordinator, Mansfield Library, University of Montana, Missoula, MT 59812........................................................................................83 MACROINVERTEBRATE TOXICOLOGY: Donald J. Klemm, Ecosystems Research Branch (MS-642), Ecological Exposure Research Division, National Exposure Res. Laboratory, Office of Research & Development, U.S. Environmental Protection Agency, 26 W. Martin Luther King Dr., Cincinnati, OH 45268-0001.............................................................................93 METHODS AND TECHNIQUES: Paul K. Sibley, Centre for Toxicology, Bovey Building, Gordon Street, University of Guelph, Guelph, Ontario, Canada, N1G 2W1...........................................................................................94 ENVIRONMENTAL REQUIREMENTS: Paul M. Kotila, Dean of Undergraduate Studies, Franklin Pierce College, 20 College Rd.,Rindge, NH 03461-0060.............................................................................................113 5 Periphyton Periphyton Christine l. Weilhoefer Aberle, N.; Hillebrand, H.; Grey, J.; Wiltshire, K. H. 2005. Selectivity and competitive interactions between two benthic invertebrate grazers (Asellus aquaticus and Potamopyrgus antipodarum): an experimental study using C-13- and N-15-labeled diatoms. Freshwater Biology 50(2): 369-379. Aboal, M.; Puig, M. A.; Asencio, A. D. 2005. Production of microcystins in calcareous Mediterranean streams: The Alharabe River, Segura River basin in south-east Spain. Journal of Applied Phycology 17(3): 231-243. Adams, S. M.; Ryon, M. G.; Smith, J. G. 2005. Recovery in diversity of fish and invertebrate communities following remediation of a polluted stream: investigating causal relationships. Hydrobiologia 542: 77-93. Alvarez, M.; Peckarsky, B. L. 2005. How do grazers affect periphyton heterogeneity in streams? Oecologia 142(4): 576-587. Barbee, N. C. 2005. Grazing insects reduce algal biomass in a neotropical stream. Hydrobiologia 532: 153-165. Baulch, H. M.; Schindler, D. W.; Turner, M. A.; Findlay, D. L.; Paterson, M. J. 2005. Effects of warming on benthic communities in a boreal lake: Implications of climate change. Limnology and Oceanography 50(5):1377-1392. Battin, T. J. 2005. Flow history explains temporal and spatial variation of carbon fractionation in stream periphyton. Limnology and Ocean- ography 50(2): 706-712. Beche, L.A.; Stephens, S. L.; Resh, V. H. 2005. Effects of prescribed fire on a Sierra Nevada (California, USA) stream and its riparian zone. Forest Ecology and Management 218(1-3): 37-59. Benstead, J. P.; Deegan, L. A.; Peterson, B. J.; Huryn, A. D.; Bowden, W. B.; Suberkropp, K.; Buzby, K. M.; Green, A. C.; Vacca, J. A. 2005. Responses of a beaded Arctic stream to short-term N and P fertilization. Freshwater Biology 50(2): 277-290. Bergey, E. A. 2005. How protective are refuges? Quantifying algal protection in rock crevices. Freshwater Biology 50(7): 1163-1177. Berglund, O.; Nystrom, P.; Larsson, P. 2005. Persistent organic pollutants in river food webs: influence of trophic position and degree of heterotrophy. Canadian Journal of Fisheries and Aquatic Sciences 62(9): 2021-2032. Bhatt, J. P.; Bhaskar, A.; Pandit, M. K. 2005. Biotic of Kishanganga river: A pre-impoundment case study of a Himalayan river. Aquatic Ecosystem Health and Management 8(3): 259-265. Biggs, B. J. F; Nikora, V. I.; Snelder, T. H. 2005. Linking scales of flow variability to lotic ecosystem structure and function. River Research and Applications 21(2-3): 283-298. Bowman, M. F.; Chambers, P. A.; Schindler, D. W. 2005. Changes in stoichiometric constraints on epilithon and benthic macroinvertebrates in response to slight nutrient enrichment of mountain rivers. Freshwater Biology 50(11): 1836-1852. Bowman, M. F.; Chambers, P. A.; Schindler, D. W. 2005. Epilithic algal abundance in relation to anthropogenic changes in phosphorus bioavailability and limitation in mountain rivers. Canadian Journal of Fisheries and Aquatic Sciences 62(1): 174-184. Brack, W.; Bakker, J.; de Deckere, E.; Deerenberg, C.; van Gils, J.; Hein, M.; Jurajda, P.; Kooijman, B.; Lamoree, M.; Lek, S.; de Alda, M. J. L.; Marcomini, A.; Munoz, I.; Rattei, S.; Segner, H.; Thomas, K.; von der Ohe, P. C.; Westrich, B.; de Zwart, D.; Schmitt-Jansen, M. 2005. MODELKEY - Models for assessing and forecasting the impact of environmental key pollutants on freshwater and marine ecosystems and biodiversity. Environmental Science and Pollution Research 12(5): 252-256. Camargo, J. A.; Alonso, K.; de la Puente, M. 2005. Eutrophication downstream from small reservoirs in mountain rivers of Central Spain. Water Research 39(14): 3376-3384. Caramujo, M. J.; Van der Grinten, E.; Admiraal, W. 2005. Trophic interactions between benthic copepods and algal assemblages: a laboratory study. Journal of the North American Benthological Society 24(4): 890-903. Cardinale, B. J.; Palmer, M. A.; Ives, A. R.; Brooks, S. S. 2005. Diversity-productivity relationships in streams vary as a function of the natural disturbance
Load more

Recommended publications
  • Aitken Basin
    Geological and geochemical analysis of units in the South Pole – Aitken Basin A.M. Borst¹,², F.S. Bexkens¹,², B. H. Foing², D. Koschny² ¹ Department of Petrology, VU University Amsterdam ² SCI-S. Research and Scientific Support Department, ESA – ESTEC Student Planetary Workshop 10-10-2008 ESA/ESTEC The Netherlands The South Pole – Aitken Basin Largest and oldest Lunar impact basin - Diameter > 2500 km - Depth > 12 km - Age 4.2 - 3.9 Ga Formed during Late heavy bombardment? Window into the interior and evolution of the Moon Priority target for future sample return missions Digital Elevation Model from Clementine altimetry data. Produced in ENVI, 50x vertical exaggeration, orthographic projection centered on the far side. Red +10 km, purple/black -10km. (A.M.Borst et.al. 2008) 1 The Moon and the SPA Basin Geochemistry Iron map South Pole – Aitken Basin mafic anomaly • High Fe, Th, Ti and Mg abundances • Excavation of mafic deep crustal / upper mantle material Thorium map Clementine 750 nm albedo map from USGS From Paul Lucey, J. Geophys. Res., 2000 Map-a-Planet What can we learn from the SPA Basin? • Large impacts; Implications and processes • Volcanism; Origin, age and difference with near side mare basalts • Cratering record; Age, frequency and size distribution • Late Heavy Bombardment; Intensity, duration and origin • Composition of the deeper crust and possibly upper mantle 2 Topics of SPA Basin study 1) Global structure of the basin (F.S. Bexkens et al, 2008) • Rims, rings, ejecta distribution, subsequent craters modifications, reconstructive
    [Show full text]
  • Diversity and Distribution of Odonata in University Sumatera Utara, Medan, Indonesian
    INTERNATIONAL JOURNAL OF SCIENTIFIC & TECHNOLOGY RESEARCH VOLUME 5, ISSUE 05, MAY 2016 ISSN 2277-8616 Diversity And Distribution Of Odonata In University Sumatera Utara, Medan, Indonesian Ameilia Zuliyanti Siregar, Darma Bakti Abstract: A total of nine stations randomly selected study sites around the University Sumatera Utara area conducted during a month (16 January 2016 until 16 February 2016) for identified of Odonata. Odonata are insect which function as bioindicator and conservation of an environment status in the area. The sampled were collected using a sweep net (400 μm mesh, 60 cm x 90 cm) with six times the swing starts at 0900 until 1200 noon hour and identified in the laboratory. Consist of two sub-orders, 4 families, 24 genera, 32 species and 156 individuals identified dragonfly. Orthetrum sabina, Pantala flavescens and Agriocnemis femina are the kinds of dragonflies dominant, while two types of Vestalis/Arethystira amoena and Tholymis aurora is found only in the Station 3. As much as 54% relative abundance of family Coenagrionidae dominated, followed by Libellulidae (35%), Gomphidae (8%) and the smallest recorded from family Calopterygidae (35). The calculation of the value of the index is done, includes diversity Shannon, eveness and varied of Jaccard index (H'=2.48-3.79, E=0.70-0.85, CJ=0.45 to 1.00). Based on the conservation status, calculated the percentage of attendance dragonfly, divided into four groups of species that are rare (6.28%), there are species (54.24%), many species (24.78%) and very many species (14.70%). This study shows diversity and distribution of Odonata can used as potential as predators and conservation status of ecosystem University of Sumatera Utara areas.
    [Show full text]
  • Identification Key to the Subfamilies of Ichneumonidae (Hymenoptera)
    Identification key to the subfamilies of Ichneumonidae (Hymenoptera) Gavin Broad Dept. of Entomology, The Natural History Museum, Cromwell Road, London SW7 5BD, UK Notes on the key, February 2011 This key to ichneumonid subfamilies should be regarded as a test version and feedback will be much appreciated (emails to [email protected]). Many of the illustrations are provisional and more characters need to be illustrated, which is a work in progress. Many of the scanning electron micrographs were taken by Sondra Ward for Ian Gauld’s series of volumes on the Ichneumonidae of Costa Rica. Many of the line drawings are by Mike Fitton. I am grateful to Pelle Magnusson for the photographs of Brachycyrtus ornatus and for his suggestion as to where to include this subfamily in the key. Other illustrations are my own work. Morphological terminology mostly follows Fitton et al. (1988). A comprehensively illustrated list of morphological terms employed here is in development. In lateral views, the anterior (head) end of the wasp is to the left and in dorsal or ventral images, the anterior (head) end is uppermost. There are a few exceptions (indicated in figure legends) and these will rectified soon. Identifying ichneumonids Identifying ichneumonids can be a daunting process, with about 2,400 species in Britain and Ireland. These are currently classified into 32 subfamilies (there are a few more extralimitally). Rather few of these subfamilies are reconisable on the basis of simple morphological character states, rather, they tend to be reconisable on combinations of characters that occur convergently and in different permutations across various groups of ichneumonids.
    [Show full text]
  • September 1948, in Banjul. in Day Trip British Dragonfly Society Applied
    98 Notul. Vol. 4, No, 6, odonatoi, pp. 93-108, December 1, 1995 Dragonflies recorded from The Gambia ¹ R.M. Gambles [deceased], N.W. Moore M. Hämäläinen² and E.D .V. Prendergast³ 1 The Farm House, 117 Boxworth End, Swavesey, Cambridge CB4 5RA, United Kingdom 2 Department ofApplied Zoology, P.O. Box 27, FIN-00014 University of Helsinki, Finland 3 Manor House, Bagber, Sturminster Newton, Dorset DT10 2EY, United Kingdom Abstract – - 64 recorded from The Gambia in all of the spp. ably by systematic collecting parts end 1989 and their known distri- and all times of it stands up to are listed, country at year; but, as bution shown. at present, it should put our knowledge of the Gambian Odonata at least on a par with that of Introduction most other West African Territories. The Gambia is a narrow strip ofterritory bounded on all sides, except for its Atlantic coastline,by Collecting Visits and Senegal, consists of little more than the river, NWM spent two months, from mid-July to mid- which somewhat pursues a meandering course September 1948, in The Gambia collecting it from east to west; and the land oneither side of mainly around Kuntaur, some 200 km up-river, 20 the to an average distance of km near mouth, but also around Banjul and Basse Santa Su. In narrowing to 10 km up-river. The groundis, for September 1958, RMG was able to land from the he for the most part, flat, and there are hardly any tribu- mail boat on which was travelling, about to It taries the river.
    [Show full text]
  • RECENT PLECOPTERA LITERATURE (CALENDAR Zootaxa 795: 1-6
    Oliver can be contacted at: Arscott, D. B., K. Tockner, and J. V. Ward. 2005. Lateral organization of O. Zompro, c/o Max-Planck-Institute of Limnology, aquatic invertebrates along the corridor of a braided floodplain P.O.Box 165, D-24302 Plön, Germany river. Journal of the North American Benthological Society 24(4): e-mail: [email protected] 934-954. Baillie, B. R., K. J. Collier, and J. Nagels. 2005. Effects of forest harvesting Peter Zwick and woody-debris removal on two Northland streams, New Pseudoretirement of Richard Baumann Zealand. New Zealand Journal of Marine and Freshwater Research 39(1): 1-15. I will officially retire from my position at Brigham Young Barquin, J., and R. G. Death. 2004. Patterns of invertebrate diversity in University on September 1, 2006. However, I will be able to maintain my streams and freshwater springs in Northern Spain. Archiv für workspace and research equipment at the Monte L. Bean Life Science Hydrobiologie 161: 329-349. Museum for a minimum of three years. At this time, I will work to complete Bednarek, A. T., and D. D. Hart. 2005. Modifying dam operations to restore many projects on stonefly systematics in concert with colleagues and rivers: Ecological responses to Tennessee River dam mitigation. friends. The stonefly collection will continue to grow and to by curated by Ecological Applications 15(3): 997-1008. Dr. C. Riley Nelson, Dr. Shawn Clark, and myself. I plan to be a major Beketov, M. A. 2005. Species composition of stream insects of northeastern “player” in stonefly research in North America for many years.
    [Show full text]
  • Seamless Maps and Management of the Bothnian Bay Seamboth - Final Report Authors
    Seamless Maps and Management of the Bothnian Bay SEAmBOTH - Final report Authors Bergdahl Linnea2, Gipson Ashley1, Haapamäki Jaakko1, Heikkinen Mirja5, Holmes Andrew2, Kaskela Anu6, Keskinen Essi1, Kotilainen Aarno6, Koponen Sampsa4, Kovanen Tupuna5, Kågesten Gustav3, Kratzer Susanne7, Nurmi Marco4, Philipson Petra8, Puro-Tahvanainen Annukka5, Saarnio Suvi1,5, Slagbrand Peter3, Virtanen Elina4. Co-authors Alasalmi Hanna4, Alvi Kimmo6*, Antinoja Anna1, Attila Jenni4, Bruun Eeva4, Heijnen Sjef9, Hyttinen Outi6, Hämäläinen Jyrki6, Kallio Kari4, Karén Virpi5, Kervinen Mikko4, Keto Vesa4, Kihlman Susanna6, Kulha Niko4, Laamanen Leena4, Niemelä Waltteri4, Nygård Henrik4, Nyman Alexandra6, Väkevä Sakari4 1Metsähallitus, 2Länsstyrelsen i Norrbottens län, 3Geological Survey of Sweden (SGU), 4Finnish Environment Institute (SYKE), 5Centres for Economic Development, Transport and the Environment (ELY-centres), 6Geological Survey of Finland (GTK), 7Department of Ecology, Environment and Plant Sciences, Stockholm University, 8Brockmann Geomatics Sweden AB (BG), 9Has University of Applied Sciences, *Deceased Title: Seamless Maps and Management of the Bothnian Bay SEAmBOTH - Final report Cover photo: Eveliina Lampinen, Metsähallitus Authors: Bergdahl Linnea, Gipson Ashley, Haapamäki Jaakko, Heikkinen Mirja, Holmes Andrew, Kaskela Anu, Keskinen Essi, Kotilainen Aarno, Koponen Sampsa, Kovanen Tupuna, Kågesten Gustav, Kratzer Susanne, Nurmi Marco, Philipson Petra, Puro-Tahvanainen Annukka, Saarnio Suvi, Slagbrand Peter, Virtanen Elina. Contact details:
    [Show full text]
  • ARTHROPODA Subphylum Hexapoda Protura, Springtails, Diplura, and Insects
    NINE Phylum ARTHROPODA SUBPHYLUM HEXAPODA Protura, springtails, Diplura, and insects ROD P. MACFARLANE, PETER A. MADDISON, IAN G. ANDREW, JOCELYN A. BERRY, PETER M. JOHNS, ROBERT J. B. HOARE, MARIE-CLAUDE LARIVIÈRE, PENELOPE GREENSLADE, ROSA C. HENDERSON, COURTenaY N. SMITHERS, RicarDO L. PALMA, JOHN B. WARD, ROBERT L. C. PILGRIM, DaVID R. TOWNS, IAN McLELLAN, DAVID A. J. TEULON, TERRY R. HITCHINGS, VICTOR F. EASTOP, NICHOLAS A. MARTIN, MURRAY J. FLETCHER, MARLON A. W. STUFKENS, PAMELA J. DALE, Daniel BURCKHARDT, THOMAS R. BUCKLEY, STEVEN A. TREWICK defining feature of the Hexapoda, as the name suggests, is six legs. Also, the body comprises a head, thorax, and abdomen. The number A of abdominal segments varies, however; there are only six in the Collembola (springtails), 9–12 in the Protura, and 10 in the Diplura, whereas in all other hexapods there are strictly 11. Insects are now regarded as comprising only those hexapods with 11 abdominal segments. Whereas crustaceans are the dominant group of arthropods in the sea, hexapods prevail on land, in numbers and biomass. Altogether, the Hexapoda constitutes the most diverse group of animals – the estimated number of described species worldwide is just over 900,000, with the beetles (order Coleoptera) comprising more than a third of these. Today, the Hexapoda is considered to contain four classes – the Insecta, and the Protura, Collembola, and Diplura. The latter three classes were formerly allied with the insect orders Archaeognatha (jumping bristletails) and Thysanura (silverfish) as the insect subclass Apterygota (‘wingless’). The Apterygota is now regarded as an artificial assemblage (Bitsch & Bitsch 2000).
    [Show full text]
  • Stoneflies^ Or Plecoptera, of Illinois
    STATE OF ILLINOIS DEPARTMENT OF REGISTRATION AND EDUCATION DIVISION OF THE NATURAL HISTORY SURVEY THEODORE H. PRISON. Chiij Vol. XX BULLETIN Article IV The Stoneflies^ or Plecoptera, of Illinois THKODORE H. FRISON PRINTED BY AUTHORITY OP THE STATE OF ILLINOIS URBANA, ILLINOIS JANUARY 1935 STATE OF ILLINOIS Honorable Henry Horner, Governor DEPARTMENT OF REGISTRATION AND EDUCATION Honorable John J. Hallihan, Dirertor BOARD OF NATURAL RESOURCES AND CONSERVATION - ! Honorable John J. Hallihan, Chairman William Trelease, D. Sc, LL. D., Biology William A. Noyes, Ph. D., LL. D., Chemistry Henry C. Cowles, Ph. D., D. Sc, Forestry Chem. D., D. Sc, John W. Alvord, C. E., Engineering Edson C. Bastxn, Ph. D., Geology Arthur Cutts Willard, D. Eng., LL. D., President of the University of Illinois NATURAL HISTORY SURVEY DIVISION URBANA, ILLINOIS Scientific and Technical Staff Theodore H. Prison, Ph. D., Chief SECTION OF economic ENTOMOLOGY SECTION OF INSECT SURVEY W. P. Flint, B. S., Chief Entomologist H. H. Ross, Ph. D., Systematic En- C. C. CoMPTON, M. S., Associate En- tomologist tomologist Carl O. Mohr, Ph. D., Associate En- M. D. Farrar, Ph. D., Research E.n- tomologist, Artist tomologist L. H. TowNSEND, M. S., Assistant En- tomologist S. C. Chandler, B. S., Sontheni Field Entomologist J. H. Bigger, B. S., Central Field SECTION OF APPLIED BOTANY AND Entomologist PLANT PATHOLOGY L. H. Shropshire, M. S., Northern L. Ph. D., Botanist Field Entomologist R. Tehon, C. Carter, Ph. D., Assistant Bota- E. R. McGovran, Ph. D., Research J. nist Fellow in Entomology G. H. BoEWE, M. S., Field Botanist W. E.
    [Show full text]
  • Odonata of the Kruger National Park
    BIODIVERSITY OBSERVATIONS RESEARCH PAPER (CITIZEN SCIENCE) Odonata of the Kruger National Park Author(s): Journal editor: Underhill LG, Loftie-Eaton M and Pete Laver Navarro R Manuscript editor: Pete Laver Received: September 9, 2018; Accepted: November 13, 2018; Published: November 13, 2018 Citation: Underhill LG, Loftie-Eaton M and Navarro R. 2018. Odonata of the Kruger National Park. Biodiversity Observations 9.11:1-16 Journal: https://journals.uct.ac.za/index.php/BO/ Manuscript: https://journals.uct.ac.za/index.php/BO/article/view/634 PDF: https://journals.uct.ac.za/index.php/BO/article/view/634/563 HTML: http://thebdi.org/blog/2018/11/13/odonata-of-the-kruger-national-park Biodiversity Observations is an open access electronic journal published by the Animal Demography Unit at the University of Cape Town, available at https://journals.uct.ac.za/index.php/BO/ The scope of Biodiversity Observations includes papers describing observations about biodiversity in general, including animals, plants, algae and fungi. This includes observations of behaviour, breeding and flowering patterns, distributions and range extensions, foraging, food, movement, measurements, habitat and colouration/plumage variations. Biotic interactions such as pollination, fruit dispersal, herbivory and predation fall within the scope, as well as the use of indigenous and exotic species by humans. Observations of naturalised plants and animals will also be considered. Biodiversity Observations will also publish a variety of other interesting or relevant biodiversity material: reports of projects and conferences, annotated checklists for a site or region, specialist bibliographies, book reviews and any other appropriate material. Further details and guidelines to authors are on the journal website (https://journals.uct.ac.za/index.php/BO/).
    [Show full text]
  • The Composition of the Lunar Crust: Radiative Transfer Modeling and Analysis of Lunar Visible and Near-Infrared Spectra
    THE COMPOSITION OF THE LUNAR CRUST: RADIATIVE TRANSFER MODELING AND ANALYSIS OF LUNAR VISIBLE AND NEAR-INFRARED SPECTRA A DISSERTATION SUBMITTED TO THE GRADUATE DIVISION OF THE UNIVERSITY OF HAWAI‘I IN PARTIAL FULFILLMENT OF THE REQUIREMENTS FOR THE DEGREE OF DOCTOR OF PHILOSOPHY IN GEOLOGY AND GEOPHYSICS DECEMBER 2009 By Joshua T.S. Cahill Dissertation Committee: Paul G. Lucey, Chairperson G. Jeffrey Taylor Patricia Fryer Jeffrey J. Gillis-Davis Trevor Sorensen Student: Joshua T.S. Cahill Student ID#: 1565-1460 Field: Geology and Geophysics Graduation date: December 2009 Title: The Composition of the Lunar Crust: Radiative Transfer Modeling and Analysis of Lunar Visible and Near-Infrared Spectra We certify that we have read this dissertation and that, in our opinion, it is satisfactory in scope and quality as a dissertation for the degree of Doctor of Philosophy in Geology and Geophysics. Dissertation Committee: Names Signatures Paul G. Lucey, Chairperson ____________________________ G. Jeffrey Taylor ____________________________ Jeffrey J. Gillis-Davis ____________________________ Patricia Fryer ____________________________ Trevor Sorensen ____________________________ ACKNOWLEDGEMENTS I must first express my love and appreciation to my family. Thank you to my wife Karen for providing love, support, and perspective. And to our little girl Maggie who only recently became part of our family and has already provided priceless memories in the form of beautiful smiles, belly laughs, and little bear hugs. The two of you provided me with the most meaningful reasons to push towards the "finish line". I would also like to thank my immediate and extended family. Many of them do not fully understand much about what I do, but support the endeavor acknowledging that if it is something I’m willing to put this much effort into, it must be worthwhile.
    [Show full text]
  • Survey of Critical Biological Resources of Pueblo County, Colorado
    Survey of Critical Biological Resources of Pueblo County, Colorado Colorado Natural Heritage Program Colorado State University 254 General Services Building 8002 Campus Delivery Fort Collins, Colorado 80523-8002 Survey of Critical Biological Resources of Pueblo County, Colorado Prepared for: Pueblo County Planning Department Pueblo, Colorado Prepared by: Susan Spackman Panjabi, Botanist John Sovell, Zoologist Georgia Doyle, Wetland Ecologist Denise Culver, Ecologist Lee Grunau, Conservation Planner May 2003 Colorado Natural Heritage Program Colorado State University 254 General Services Building 8002 Campus Delivery Fort Collins, Colorado 80523-8002 USER’S GUIDE The Survey of Critical Biological Resources of Pueblo County was conducted one year after the Survey of Critical Wetland and Riparian Areas in El Paso and Pueblo Counties. The projects, both conducted by the Colorado Natural Heritage Program, are two distinct projects that are highly integrated with respect to methodology and fieldwork. Both projects utilized the same Natural Heritage methodology that is used throughout the globe, and both searched for and assessed the plants, animals, and plant communities on the Colorado Natural Heritage Program’s list of rare and imperiled elements of biodiversity. Each report prioritizes potential conservation areas based on the relative significance of the biodiversity they support and the urgency for protection of the site. All information explaining Natural Heritage methodology and ranks is repeated in each report, so that each report can stand alone and be used independently of the other. This report, Survey of Critical Biological Resources of Pueblo County, presents all potential conservation areas identified in Pueblo County that support rare and imperiled plants, animals, and significant plant communities, including wetland and riparian areas.
    [Show full text]
  • Agriotypus Armatus Curtis, 1832, a Parasitoid of Silo Pallipes Fabricius, 1781: the first Record for the Balkan Peninsula K
    Knowledge and Management of Aquatic Ecosystems (2014) 414, 05 http://www.kmae-journal.org c ONEMA, 2014 DOI: 10.1051/kmae/2014016 Agriotypus armatus Curtis, 1832, a parasitoid of Silo pallipes Fabricius, 1781: the first record for the Balkan Peninsula K. Bjelanovic´ (1),I.Živic´ (1),,A.Petrovic´ (1), J. Djordjevic´ (2),Z.Markovic´ (3), V. Ž ik ic´ (4) Received January 12, 2014 Revised March 25, 2014 Accepted March 27, 2014 ABSTRACT Key-words: Among the diverse order of Hymenoptera, aquatic species are of special Agriotypus, interest. During macrozoobenthos sampling in the rivers of Serbia in 2003 parasitoid, and during the period 2011−2012, pupae of Silo pallipes Fabricius, 1781 Serbia, were recorded which were parasitized by an ichneumonid wasp Agrioty- distribution, pus armatus Curtis, 1832, this being the first record of it for the Balkan ecological Peninsula. A total of 217 A. armatus specimens were collected at 29 local- parameters ities situated along 16 watercourses of Serbia. All four parasitoid stages (egg, larva, pupa and resting adult) were recorded. The identity of the par- asitoid was confirmed using standard molecular methods. This study also focuses on the ecology of the parasitoid and its host. The widespread dis- tribution of A. armatus in Europe suggests the presence of this species in other Balkan countries, but this has not yet been confirmed due to a lack of surveys and/or the constantly increasing pollution of freshwaters. RÉSUMÉ Agriotypus armatus Curtis 1832, un parasitoïde de Silo pallipes Fabricius, 1781 : premier enregistrement dans la péninsule des Balkans Mots-clés : Parmi l’ordre diversifié des hyménoptères, les espèces aquatiques sont d’un inté- Agriotypus, rêt particulier.
    [Show full text]