DOCSLIB.ORG

52111-001: Alaoa Multi-Purpose Dam Project

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
52111-001: Alaoa Multi-Purpose Dam Project Environmental Impact Assessment Project Number: 52111-001 February 2020 Samoa: Alaoa Multi-purpose Dam Project Volume 2: Aquatic Biodiversity and Habitat Assessment (Part 4 of 9) Prepared by Hydro-Electric Corporation for the Asian Development Bank. This environmental impact assessment is a document of the borrower. The views expressed herein do not necessarily represent those of ADB's Board of Directors, Management, or staff, and may be preliminary in nature. Your attention is directed to the “terms of use” section on ADB’s website. In preparing any country program or strategy, financing any project, or by making any designation of or reference to a particular territory or geographic area in this document, the Asian Development Bank does not intend to make any judgments as to the legal or other status of any territory or area. ALAOA MULTI- PURPOSE DAM PROJECT Aquatic biodiversity and habitat assessment 7 September 2019 Prepared by Hydro-Electric Corporation ABN48 072 377 158 t/a Entura 89 Cambridge Park Drive, Cambridge TAS 7170 Australia Entura in Australia is certified to the latest version of ISO9001, ISO14001, and OHSAS18001. ©Entura. All rights reserved. Entura has prepared this document for the sole use of the client and for a specific purpose, as expressly stated in the document. Entura undertakes no duty nor accepts any responsibility to any third party not being the intended recipient of this document. The information contained in this document has been carefully compiled based on the client’s requirements and Entura’s experience, having regard to the assumptions that Entura can reasonably be expected to make in accordance with sound professional principles. Entura may also have relied on information provided by the client and/or other parties to prepare this document, some of which may not have been verified. Subject to the above conditions, Entura recommends this document should only be transmitted, reproduced or disseminated in its entirety. Error! Unknown document property name. - Error! Unknown document property name. Revision No: Error! Unknown document property name. Error! Unknown document property name.Error! Unknown document property name. Document information Document title Alaoa Multi-Purpose Dam Project Aquatic biodiversity and habitat assessment Client organisation Asian Development Bank Client contact Jean Williams ConsultDM number E307132 Project Manager Will Elvey Project number P513660 Revision history Revision 1.0 Revision description Prepared by Will Elvey Reviewed by Andrew Taylor/Dr Andrew Storey Approved by Andrew Taylor/Dr Andrew Storey (name) (signature) (date) Distributed to Jean Williams Asian Development Bank (name) (organisation) (date) Error! Unknown document property name. - Error! Unknown document property name. Revision No: Error! Unknown document property name. Error! Unknown document property name.Error! Unknown document property name. Glossary Term Comment Amphidromous Adults breed in freshwater, larvae flow to the sea and juveniles return to freshwater to complete the life cycle Benthic/benthos Occurring at the bottom of a body of water Catadromous Adults live in freshwater and migrate to sea to spawn with juveniles returning to freshwater to complete the life cycle Cascade Small waterfall occurring over sudden changes in stream gradient producing broken turbulent flow over course substrate Dissecting microscope A low-magnification stereomicroscope used especially for examining or dissecting biological specimens Decapod crustaceans A crustacean of the order Decapoda, such as a crab, prawn, or shrimp Detritus Decaying plant matter (leaves, branches etc) which provided habitat and food sources Backpack electro-fisher Uses direct current electricity flowing between a submerged cathode and anode. This affects the movement of the fish so that they swim toward the anode, where they can be caught Estuarine Partially enclosed coastal body of brackish water with one or more rivers or streams flowing into it Fishway A structure built into or adjacent to an instream barrier enabling fish to pass upstream Fyke net A long, bag-shaped fishing net held open by hoops Geomorphological Study of the nature and origin of landforms, particularly erosion processes Glide habitat Slow moving non-turbulent flow, too shallow to be a pool but slower flow than a run Headpond Storage reservoir located to create head (elevation) for a penstock and hydro- power station Littoral zone Habitat at the edge of the river channel or lake between the high and low water mark Macroinvertebrate An invertebrate that is large enough to be seen without a microscope Opera trap Small folding net with a single baffled entrance for capturing crustaceans and small fish Penstock Pipe used to transfer water from a storage reservoir to a power station Primary production New organic matter produced by photosynthesis Riparian Terrestrial vegetation that fringes a watercourse Riffle habitat Areas of fast, turbulent flow over coarse substrate Run habitat Areas of relatively fast, shallow non-turbulent flow Taxa A taxonomic group of any rank, such as a species, family, or class Taxonomic The classification of organisms in an ordered system that indicates natural relationships Trophic Ecology of or involving the feeding habits or food relationship of different organisms in a food chain Error! Unknown document property name. - Error! Unknown document property name. Revision No: Error! Unknown document property name. Error! Unknown document property name.Error! Unknown document property name. Executive summary The Asian Development Bank (ADB) commissioned Entura to carry out a baseline aquatic values survey for the proposed Alaoa Multi-Purpose Dam Project. This report is intended to be incorporated into the overall social and environmental impact assessment (SEIA) for the project, and includes a literature review, outcomes of the dry and wet season baseline aquatic surveys, assessment of natural and critical habitats, potential impacts arising from operation and potential options to mitigate those impacts. Baseline values and regional biodiversity significance The fauna recorded during the dry (September 2018) and wet season (May 2019) surveys are consistent with previous surveys undertaken in the Vaisigano River and what would be expected given what is known about Samoa’s freshwater biodiversity. The highest fish diversity occurs in the lower reaches of the river where access to the riverine habitat is not restricted by waterfalls or weirs. Upstream of the first significant waterfall, the fish and crustacean fauna is restricted to species which can climb up or around instream barriers. The majority of these climbing species are also obligatory migratory fauna which move between freshwater and marine habitats to complete their life cycle. The reaches within and upstream of the inundation zone include six species of migratory fish and seven species of migratory crustacean. The migratory fish species includes the endemic goby, Stiphodon hydoreibatus. The majority of the freshwater species recorded in the river are common and widespread in the Indo-Pacific region. No aquatic species recorded during the aquatic surveys for this project, or in previous surveys of any Samoan freshwater watercourse, are listed as near threatened, vulnerable, endangered or critically endangered by the International Union for Conservation (IUCN) Red List. The endemic fish Kuhlia salelea was recorded in the lower reaches of the river during the dry season survey in 2018 but is unlikely to be negatively affected by the scheme and may benefit if an outcome of the project was mitigation in the form of an environmental flow released from Samasoni Weir. The migratory goby Stiphodon hydoreibatus was recorded during wet season survey and is endemic to Samoa, American Samoa, and Futuna. There is no information on the population size, life history or trends of this species as it has not been commonly found and it may be naturally rare. The lack of information about the requirements of Stiphodon hydoreibatus, its apparent restricted distribution and rarity raises the significance of any negative impacts of the project on this species compared to the other more common migratory species. Few freshwater surveys have been conducted in Samoa and the full diversity of Samoan freshwater fauna is uncertain. The discovery of new species is therefore possible during future surveys. Natural and critical habitat assessment The lower Vaisigano River catchment, within the wider Apia Catchments key biodiversity area (KBA), is highly modified by existing urban, hydro-electric and water supply infrastructure. The lower, middle and upper reaches of the river are affected differently by these developments and will be affected differently by the proposed Alaoa Multi-Purpose Dam Project (the project). As defined in the Asian Development Banks (ADB) Social Safeguard Policy (2009), the aquatic habitat in the Vaisigano River downstream from the project area is modified by land use and flow regulation, vii Error! Unknown document property name. - Error! Unknown document property name. Revision No: Error! Unknown document property name. Error! Unknown document property name.Error! Unknown document property name. particularly the lower Vaisigano River below Samasoni Weir which is in very poor condition as no environmental flow is currently released downstream of Samasoni Weir. Thus the river channel is dry from the weir to Samasoni Power Station (approximately 4.2 kilometres downstream) for weeks
Load more

Recommended publications
  • Status of Taal Lake Fishery Resources with Emphasis on the Endemic Freshwater Sardine, Sardinella Tawilis (Herre, 1927)
    The Philippine Journal of Fisheries 25Volume (1): 128-135 24 (1-2): _____ January-June 2018 JanuaryDOI 10.31398/tpjf/25.1.2017C0017 - December 2017 Status of Taal Lake Fishery Resources with Emphasis on the Endemic Freshwater Sardine, Sardinella tawilis (Herre, 1927) Maria Theresa M. Mutia1,*, Myla C. Muyot1,, Francisco B. Torres Jr.1, Charice M. Faminialagao1 1National Fisheries Research and Development Institute, 101 Corporate Bldg., Mother Ignacia St., South Triangle, Quezon City ABSTRACT Assessment of fisheries in Taal Lake was conducted from 1996-2000 and 2008-2011 to know the status of the commercially important fishes with emphasis on the endemic freshwater sardine,Sardinella tawilis. Results of the fish landed catch survey in 11 coastal towns of the lake showed a decreasing fish harvest in the open fisheries from 1,420 MT to 460 MT in 1996 to 2011. Inventory of fisherfolk, boat, and gear also decreased to 16%, 7%, and 39%, respectively from 1998 to 2011. The most dominant gear is gill net which is about 53% of the total gear used in the lake with a declining catch per unit effort (CPUE) of 11kg/day to 4 kg/day from 1997 to 2011. Active gear such as motorized push net, ring net, and beach seine also operated in the lake with a CPUE ranging from 48 kg/day to 2,504 kg/day. There were 43 fish species identified in which S. tawilis dominated the catch for the last decade. However, its harvest also declined from 744 to 71 mt in 1996 to 2011. The presence of alien species such as jaguar fish, pangasius, and black-chinned tilapia amplified in 2009.
    [Show full text]
  • [The Pond\. Odonatoptera (Odonata)]
    Odonatological Abstracts 1987 1993 (15761) SAIKI, M.K. &T.P. LOWE, 1987. Selenium (15763) ARNOLD, A., 1993. Die Libellen (Odonata) in aquatic organisms from subsurface agricultur- der “Papitzer Lehmlachen” im NSG Luppeaue bei al drainagewater, San JoaquinValley, California. Leipzig. Verbff. NaturkMus. Leipzig 11; 27-34. - Archs emir. Contam. Toxicol. 16: 657-670. — (US (Zur schonen Aussicht 25, D-04435 Schkeuditz). Fish & Wildl. Serv., Natn. Fisheries Contaminant The locality is situated 10km NW of the city centre Res. Cent., Field Res, Stn, 6924 Tremont Rd, Dixon, of Leipzig, E Germany (alt, 97 m). An annotated CA 95620, USA). list is presented of 30 spp., evidenced during 1985- Concentrations of total selenium were investigated -1993. in plant and animal samplesfrom Kesterson Reser- voir, receiving agricultural drainage water (Merced (15764) BEKUZIN, A.A., 1993. Otryad Strekozy - — Co.) and, as a reference, from the Volta Wildlife Odonatoptera(Odonata). [OrderDragonflies — km of which Area, ca 10 S Kesterson, has high qual- Odonatoptera(Odonata)].Insectsof Uzbekistan , pp. ity irrigationwater. Overall,selenium concentrations 19-22,Fan, Tashkent, (Russ.). - (Author’s address in samples from Kesterson averaged about 100-fold unknown). than those from Volta. in and A rather 20 of higher Thus, May general text, mentioning (out 76) spp. Aug. 1983, the concentrations (pg/g dry weight) at No locality data, but some notes on their habitats Kesterson in larval had of 160- and vertical in Central Asia. Zygoptera a range occurrence 220 and in Anisoptera 50-160. In Volta,these values were 1.2-2.I and 1.1-2.5, respectively. In compari- (15765) GAO, Zhaoning, 1993.
    [Show full text]
  • Evolutionary Genomics of a Plastic Life History Trait: Galaxias Maculatus Amphidromous and Resident Populations
    EVOLUTIONARY GENOMICS OF A PLASTIC LIFE HISTORY TRAIT: GALAXIAS MACULATUS AMPHIDROMOUS AND RESIDENT POPULATIONS by María Lisette Delgado Aquije Submitted in partial fulfilment of the requirements for the degree of Doctor of Philosophy at Dalhousie University Halifax, Nova Scotia August 2021 Dalhousie University is located in Mi'kma'ki, the ancestral and unceded territory of the Mi'kmaq. We are all Treaty people. © Copyright by María Lisette Delgado Aquije, 2021 I dedicate this work to my parents, María and José, my brothers JR and Eduardo for their unconditional love and support and for always encouraging me to pursue my dreams, and to my grandparents Victoria, Estela, Jesús, and Pepe whose example of perseverance and hard work allowed me to reach this point. ii TABLE OF CONTENTS LIST OF TABLES ............................................................................................................ vii LIST OF FIGURES ........................................................................................................... ix ABSTRACT ...................................................................................................................... xii LIST OF ABBREVIATION USED ................................................................................ xiii ACKNOWLEDGMENTS ................................................................................................ xv CHAPTER 1. INTRODUCTION ....................................................................................... 1 1.1 Galaxias maculatus ..................................................................................................
    [Show full text]
  • The Freshwater Ichthyofauna of Bougainville Island, Papua New Guinea!
    Pacific Science (1999), vol. 53, no. 4: 346-356 © 1999 by University of Hawai'i Press. All rights reserved The Freshwater Ichthyofauna of Bougainville Island, Papua New Guinea! J. H. POWELL AND R. E. POWELL2 ABSTRACT: Tailings disposal from the Bougainville Copper Limited open-cut porphyry copper mine on Bougainville Island, Papua New Guinea (1972-1989) impacted the ichthyofauna of the Jaba River, one of the largest rivers on the island. To assess the 'extent of this impact, comparative freshwater ichthyologi­ cal surveys were conducted in five rivers on the island during the period 1975­ 1988. Fifty-eight fish species were recorded, including one introduction, Oreo­ chromis mossambicus. The icthyofauna is dominated by euryhaline marine spe­ cies consistent with that of the Australian region, but more depauperate. There are more than 100 species present on mainland New Guinea that are absent from Bougainville streams. Oreochromis mossambicus was the most abundant species in the sampled streams, accounting for 45% of the catch. The most abundant native fishes were the mainly small Gobiidae and Eleotridae. There were few native fish of potential value as food and these were restricted to an eleotrid gudgeon (Ophieleotris aporos), tarpon (Megalops cyprinoides), eel (An­ guilla marmorata), and snappers (Lutjanus argentimaculatus and Lutjanus fus­ cescens). Fish production in the rivers is limited by the morphology of the streams and the depauperate ichthyofauna. Fish yield from the Jaba River in its premining state is estimated to have ranged from 7 to 12 t/yr. The popula­ tion living in the Jaba ,catchment in 1988 (approximately 4,600 persons) shared this resource, resulting in an extremely low per-capita fish consumption rate of less than 3 kg/yr.
    [Show full text]
  • 5Th Indo-Pacific Fish Conference
    )tn Judo - Pacifi~ Fish Conference oun a - e II denia ( vernb ~ 3 - t 1997 A ST ACTS Organized by Under the aegis of L'Institut français Société de recherche scientifique Française pour le développement d'Ichtyologie en coopération ' FI Fish Conference Nouméa - New Caledonia November 3 - 8 th, 1997 ABSTRACTS LATE ARRIVAL ZOOLOGICAL CATALOG OF AUSTRALIAN FISHES HOESE D.F., PAXTON J. & G. ALLEN Australian Museum, Sydney, Australia Currently over 4000 species of fishes are known from Australia. An analysis ofdistribution patterns of 3800 species is presented. Over 20% of the species are endemic to Australia, with endemic species occuiring primarily in southern Australia. There is also a small component of the fauna which is found only in the southwestern Pacific (New Caledonia, Lord Howe Island, Norfolk Island and New Zealand). The majority of the other species are widely distributed in the western Pacific Ocean. AGE AND GROWTH OF TROPICAL TUNAS FROM THE WESTERN CENTRAL PACIFIC OCEAN, AS INDICATED BY DAILY GROWm INCREMENTS AND TAGGING DATA. LEROY B. South Pacific Commission, Nouméa, New Caledonia The Oceanic Fisheries Programme of the South Pacific Commission is currently pursuing a research project on age and growth of two tropical tuna species, yellowfm tuna (Thunnus albacares) and bigeye tuna (Thunnus obesus). The daily periodicity of microincrements forrned with the sagittal otoliths of these two spceies has been validated by oxytetracycline marking in previous studies. These validation studies have come from fishes within three regions of the Pacific (eastem, central and western tropical Pacific). Otolith microincrements are counted along transverse section with a light microscope.
    [Show full text]
  • Training Manual Series No.15/2018
    View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by CMFRI Digital Repository DBTR-H D Indian Council of Agricultural Research Ministry of Science and Technology Central Marine Fisheries Research Institute Department of Biotechnology CMFRI Training Manual Series No.15/2018 Training Manual In the frame work of the project: DBT sponsored Three Months National Training in Molecular Biology and Biotechnology for Fisheries Professionals 2015-18 Training Manual In the frame work of the project: DBT sponsored Three Months National Training in Molecular Biology and Biotechnology for Fisheries Professionals 2015-18 Training Manual This is a limited edition of the CMFRI Training Manual provided to participants of the “DBT sponsored Three Months National Training in Molecular Biology and Biotechnology for Fisheries Professionals” organized by the Marine Biotechnology Division of Central Marine Fisheries Research Institute (CMFRI), from 2nd February 2015 - 31st March 2018. Principal Investigator Dr. P. Vijayagopal Compiled & Edited by Dr. P. Vijayagopal Dr. Reynold Peter Assisted by Aditya Prabhakar Swetha Dhamodharan P V ISBN 978-93-82263-24-1 CMFRI Training Manual Series No.15/2018 Published by Dr A Gopalakrishnan Director, Central Marine Fisheries Research Institute (ICAR-CMFRI) Central Marine Fisheries Research Institute PB.No:1603, Ernakulam North P.O, Kochi-682018, India. 2 Foreword Central Marine Fisheries Research Institute (CMFRI), Kochi along with CIFE, Mumbai and CIFA, Bhubaneswar within the Indian Council of Agricultural Research (ICAR) and Department of Biotechnology of Government of India organized a series of training programs entitled “DBT sponsored Three Months National Training in Molecular Biology and Biotechnology for Fisheries Professionals”.
    [Show full text]
  • Giant Clams, Green Snails, Penaeid Shrimps, and Others
    ISSN 1018-3116 Inshore Fisheries Research Project SPREP Report and Studies Technical Document No. 7 Series No. 78 PERSPECTIVES IN AQUATIC EXOTIC SPECIES MANAGEMENT IN THE PACIFIC ISLANDS VOLUME 1 INTRODUCTIONS OF COMMERCIALLY SIGNIFICANT AQUATIC ORGANISMS TO THE PACIFIC ISLANDS by L.G. Eldredge Pacific Science Association Honolulu, Hawaii, USA South Pacific Commission Noumea, New Caledonia PERSPECTIVES IN AQUATIC EXOTIC SPECIES MANAGEMENT IN THE PACIFIC ISLANDS VOLUME 1 INTRODUCTIONS OF COMMERCIALLY SIGNIFICANT AQUATIC ORGANISMS TO THE PACIFIC ISLANDS by L.G. Eldredge Pacific Science Association Honolulu, Hawaii, USA South Pacific Commission Noumea, New Caledonia March 1994 INTRODUCTION Documentation of animals introduced to Pacific islands since European contact is for the most part anecdotal. Long-term, quantitative studies have not been conducted in the marine environment as they have in other areas. The purpose of this review is to record the intentional and accidental in- troduction of aquatic plants and animals to the Pacific islands (the area encompassed by the South Pacific Commission). Plants and animals are distributed either intentionally or accidentally. Five periods of introductions for aquatic and terrestrials animals have been proposed (Eldredge, 1992). A sixth period is added herein. In summary these periods are: 1. The early period of settlement of islands by traditional voyagers when traditional life styles were maintained. This continuation of life style has been interpreted as 'transported landscapes' by anthropologists (Kirch, 1982a and 1982b). Roberts (1991) described voyager-related rat dispersal among the islands as early as 3100 to 2500 B.P. It was during this time that chickens, dogs, pigs, etc. were intentionally carried around.
    [Show full text]
  • FINAL REPORT Development and Use of Genetic Methods for Assessing Aquatic Environmental Condition and Recruitment Dynamics of Native Stream Fishes on Pacific Islands
    FINAL REPORT Development and Use of Genetic Methods for Assessing Aquatic Environmental Condition and Recruitment Dynamics of Native Stream Fishes on Pacific Islands SERDP Project RC-1646 APRIL 2014 Michael J. Blum Tulane University James F. Gilliam North Carolina State University Peter B. McIntyre University of Wisconsin Distribution Statement A Table of Contents List of Tables ii List of Figures iii List of Acronyms v Keywords ix Acknowledgments x 1 Abstract 1 2 Objectives 3 3 Background 5 3.0 Oceanic Island Watersheds and Stream Ecosystems 5 3.1 Genetic Assessment of Aquatic Environmental Condition 8 3.2 Historical Colonization and Contemporary Connectivity 9 3.2.1 Genetic Analysis of Historical Colonization and Contemporary Connectivity 11 3.2.2 Use of Otolith Microchemistry for Estimating Contemporary Connectivity 12 3.2.3 Use of Oxygen Isotopes in Otoliths for Reconstructing Life History 14 3.2.4 Coupled Biophysical Modeling of Larval Dispersal 16 3.3 Genetic and Integrative Assessment of Pacific Island Watersheds 18 3.3.1 Among-Watershed Assessment of Environmental Condition 18 3.3.2 Within-Watershed Assessment of Environmental Condition 19 3.3.3 Mark-recapture Calibration of Snorkel Surveys 22 4 Materials and Methods 26 4.0 Historical Colonization and Contemporary Connectivity 26 4.0.1 Genetic Analysis of Historical Colonization and Contemporary Connectivity 26 4.0.2 Otolith Microchemistry Analysis of Contemporary Connectivity 32 4.0.3 Use of Oxygen Isotopes in Otoliths for Reconstructing Life History 38 4.0.4 Coupled Biophysical
    [Show full text]
  • 1 Peces 1 13 Low.Pdf
    ISSN 2410-7492 Acces RNPS 2403 Abierto Revista Cubana de Zoología http://revistas.geotech.cu/index.php/poey COLECCIONES ZOOLÓGICAS 503 (julio-diciembre, 2016): 1 - 13 Catálogo ilustrado de los especímenes tipo de peces cubanos II (Osteichthyes, clase: Actinopterygii: Cyprinodontiformes, Gadiformes, Lampridiformes, Mugiliformes, Myctophiformes, Ophidiformes) Isabel FALOH-GANDARILLA1* , Luis S. ALVAREZ-LAJONCHERE2 , Erik GARCÍA- MACHADO3 , Elena GUTIÉRREZ DE LOS REYES1 , María.V.OROZCO1 , Rolando CORTÉS1 , Yusimí ALFONSO1 , Elida LEMUS1 , Raúl Igor CORRADA WONG1 , Pedro CHEVALIER- MONTEAGUDO1 , Alexis Ramón FERNÁNDEZ OSORIA1 , Roberto PÉREZ DE LOS REYES1 , Isis L. ÁLVAREZ1 1Acuario Nacional de Cuba (ANC), Ave. Primera y Calle 60, Miramar, Playa, La Habana, Cuba. 2Calle 41 No. 886, N. Vedado, Plaza, La Habana, C.P. 10600, Cuba 3Centro de Investigaciones Marinas, Universidad de la Habana, Calle 16, No. 114 entre 1ra y 3ra, Miramar, Playa, La Habana, C.P. 11300, Cuba *Autor para correspondencia: [email protected] Resumen. Se recopila información para representar los MYCTOPHIFORMES, OPHIDIFORMES). The especímenes tipo de 29 especies de peces cubanos information from different databases was collected to (Superclase Osteichthyes), desde el Orden present the type specimens of 29 Cuban fishes (Superclass Cyprinodontiformes hasta el Orden Ophidiiformes. La Osteichthyes) in alphabetical order of the order of the Class recopilación se ha hecho según el orden alfabético de los from Cyprinodontiformes to Ophidiiformes; with their Órdenes de la Clase; con ilustraciones y datos asociados. 11 original illustrations and associated data. 11 of them are de las especies fueron descritas por Don Felipe Poey y Aloy, Poey's specimens, the famous Cuban naturalist from 19th conocido naturalista cubano del siglo XIX.
    [Show full text]
  • Annotated Checklist of the Fish Species (Pisces) of La Réunion, Including a Red List of Threatened and Declining Species
    Stuttgarter Beiträge zur Naturkunde A, Neue Serie 2: 1–168; Stuttgart, 30.IV.2009. 1 Annotated checklist of the fish species (Pisces) of La Réunion, including a Red List of threatened and declining species RONALD FR ICKE , THIE rr Y MULOCHAU , PA tr ICK DU R VILLE , PASCALE CHABANE T , Emm ANUEL TESSIE R & YVES LE T OU R NEU R Abstract An annotated checklist of the fish species of La Réunion (southwestern Indian Ocean) comprises a total of 984 species in 164 families (including 16 species which are not native). 65 species (plus 16 introduced) occur in fresh- water, with the Gobiidae as the largest freshwater fish family. 165 species (plus 16 introduced) live in transitional waters. In marine habitats, 965 species (plus two introduced) are found, with the Labridae, Serranidae and Gobiidae being the largest families; 56.7 % of these species live in shallow coral reefs, 33.7 % inside the fringing reef, 28.0 % in shallow rocky reefs, 16.8 % on sand bottoms, 14.0 % in deep reefs, 11.9 % on the reef flat, and 11.1 % in estuaries. 63 species are first records for Réunion. Zoogeographically, 65 % of the fish fauna have a widespread Indo-Pacific distribution, while only 2.6 % are Mascarene endemics, and 0.7 % Réunion endemics. The classification of the following species is changed in the present paper: Anguilla labiata (Peters, 1852) [pre- viously A. bengalensis labiata]; Microphis millepunctatus (Kaup, 1856) [previously M. brachyurus millepunctatus]; Epinephelus oceanicus (Lacepède, 1802) [previously E. fasciatus (non Forsskål in Niebuhr, 1775)]; Ostorhinchus fasciatus (White, 1790) [previously Apogon fasciatus]; Mulloidichthys auriflamma (Forsskål in Niebuhr, 1775) [previously Mulloidichthys vanicolensis (non Valenciennes in Cuvier & Valenciennes, 1831)]; Stegastes luteobrun- neus (Smith, 1960) [previously S.
    [Show full text]
  • Migratory Flexibility in Native Hawai'ian Amphidromous Fishes
    Received: 29 August 2019 Accepted: 5 December 2019 DOI: 10.1111/jfb.14224 REGULAR PAPER FISH Migratory flexibility in native Hawai'ian amphidromous fishes Heidi Heim-Ballew1 | Kristine N. Moody2 | Michael J. Blum2 | Peter B. McIntyre3,4 | James D. Hogan1 1Department of Life Sciences, Texas A&M University-Corpus Christi, Corpus Christi, Abstract Texas, USA We assessed the prevalence of life history variation across four of the five native 2 Department of Ecology and Evolutionary amphidromous Hawai'ian gobioids to determine whether some or all exhibit evidence Biology, University of Tennessee-Knoxville, Knoxville, Tennessee, USA of partial migration. Analysis of otolith Sr.: Ca concentrations affirmed that all are 3Center for Limnology, University of amphidromous and revealed evidence of partial migration in three of the four spe- Wisconsin – Madison, Madison, Wisconsin, USA cies. We found that 25% of Lentipes concolor (n= 8), 40% of Eleotris sandwicensis 4Department of Natural Resources, (n=20) and 29% of Stenogobius hawaiiensis (n=24) did not exhibit a migratory life- Cornell University, Ithaca, New York, history. In contrast, all individuals of Sicyopterus stimpsoni (n= 55) included in the USA study went to sea as larvae. Lentipes concolor exhibited the shortest mean larval dura- Correspondence tion (LD) at 87 days, successively followed by E. sandwicensis (mean LD = 102 days), Heidi Heim-Ballew, Department of Life Sciences, Texas A&M University-Corpus S. hawaiiensis (mean LD = 114 days) and S. stimpsoni (mean LD = 120 days). These Christi, 6300 Ocean Drive, Unit 5800, Corpus findings offer a fresh perspective on migratory life histories that can help improve Christi TX, 78412, USA.
    [Show full text]
  • Flight Or Aerial Adaptation of Birds the Following Points Highlight the Two
    Flight or aerial adaptation of birds The following points highlight the two main types of flight or aerial adaptation of birds. The types are: 1. Morphological Adaptations 2. Anatomical adaptations 1. Morphological Adaptations: Most birds possess following important flight or Volant adaptations: i. Body Contour: Because speed is a must for aerial life, so, to minimise the resistance offered by air during flight, the body of birds is fusiform or spindle-shaped and it lacks any extra projection which may offer resistance in the attainment of speed in air like fish in the water. ii. Compact Body: Their compact body is light and strong dorsally and heavy ventrally which helps in maintaining equilibrium in the air. The attachment of wings high upon the thorax, the high position of light organs like lungs and sacs, and low central position of heavy muscles, sternum and digestive organs below the attachment of both the wings and consequently low centre of gravity are other morphological facts of great significance. iii. Body-Covering of Feathers: Body of all birds is covered by special integumentary derivatives called feathers. Feathers are diagnostic of birds, since no other group of animal kingdom has ever developed them. Feathers have following advantages for birds: (a) The smooth, closely fitting and backwardly directed contour feathers make the body streamlined helping them to pass through the air by reducing the friction to the minimum. (b) The feathery covering makes the body light and at the same time protects from the hazards of environmental temperature. (c) The feathers hold a considerable blanket of enveloping air around the body and add much to its buoyancy.
    [Show full text]