Investigation of the Implications of Different Reef Fish Life History Strategies on Fisheries Management, Final Technical

Total Page:16

File Type:pdf, Size:1020Kb

Investigation of the Implications of Different Reef Fish Life History Strategies on Fisheries Management, Final Technical Investigation of the implications of different reef fish life history strategies on fisheries management Final Technical Report 10 50 8 6 40 4 30 Frequency 2 20 Fork Length (cm) 0 10 25 27 29 31 33 35 37 39 41 43 45 Total Length (cm) 0 0 2 4 6 8 10 12 14 16 Age (yrs) Back-calculated Individual length at age Observed data Assessment Management Advice Biological Fishery Fishery Management Sampling Sampling Regulations Catch Growth Natural Recruitment Mortality Operating model August 2004 Front cover: Length-based and age-based assessment methods for Lethrinus mahsena (left) and Siganus sutor (right). Images available from Fishbase: www.fishbase.org (Froese and Pauly, 2000) Document to be cited as: Wakeford, R.C., Pilling, G.M., O’Neill, C.J. and A. Hine. (2004). Investigation of the implications of different reef fish life history strategies on fisheries management. FMSP Final Tech. Rep. MRAG, London. 139pp. Final Report – Administrative Details DATE COMPLETED: 31/03/2004 TITLE OF PROJECT R7835: Investigation of the implications of different reef fish life history strategies on fisheries management PROGRAMME MANAGER / Professor John Beddington INSTITUTION MRAG Ltd 47 Prince’s Gate London SW7 2QA FROM TO REPORTING PERIOD 01/04/2001 31/03/2004 AUTHORS OF THIS REPORT Dr Robert Wakeford, Dr Graham Pilling, Mrs Catherine O’Neill, Mr Adrian Hine R7835 Effects of fish life history strategies on management Page i Page ii R7835 Effects of fish life history strategies on management Acknowledgments Thanks go to Dr Geoff Kirkwood and Dr Chris Mees for their helpful consultations during the project and Dr Ashley Halls for his assistance in part of the analyses. Many thanks also go to Ed Grandcourt and Jan Robinson for their helpful comments on the biology of the shoemaker spinefoot rabbitfish (Siganus sutor). The project was funded through the UK Department for International Development (DFID) Fisheries Management Science Programme (FMSP), which is managed by MRAG Ltd. This document is an output from a project funded by the UK Department for International Development (DFID) for the benefit of developing countries. The views expressed are not necessarily those of the DFID. R7835 Effects of fish life history strategies on management Page iii Page iv R7835 Effects of fish life history strategies on management Contents Final Report – Administrative Details .................................................................................. i Acknowledgments ............................................................................................................... iii Contents ................................................................................................................................ v List of Tables....................................................................................................................... vii List of Figures ...................................................................................................................... ix Final Technical Report ......................................................................................................... 1 1 Introduction ...................................................................................................................11 1.1 Project aims.......................................................................................................... 11 1.2 Report Structure ................................................................................................... 11 2 The use of analytical methods of stock assessment in fisheries ............................ 13 2.1 Introduction........................................................................................................... 13 2.2 Methods................................................................................................................ 14 2.2.1 Introduction ............................................................................................. 14 2.2.2 Methodology ........................................................................................... 14 2.2.3 Results.................................................................................................... 14 2.3 Review of assessment tools ................................................................................. 16 2.3.1 Exploitation rate ...................................................................................... 16 2.3.2 Yield per recruit....................................................................................... 17 2.3.3 Virtual population/cohort analysis ........................................................... 19 2.4 Performance of assessment methods .................................................................. 21 2.4.1 Exploitation rate ...................................................................................... 21 2.4.2 Yield per recruit....................................................................................... 23 2.4.3 VPA......................................................................................................... 24 2.5 Analysis of assessment methods ......................................................................... 26 2.5.1 Methods .................................................................................................. 26 2.5.2 Results.................................................................................................... 28 2.5.3 Discussion .............................................................................................. 32 3 Biological characteristics of a moderately fast (Siganus sutor) and slow (Lethrinus mahsena) growing species .......................................................................................... 33 3.1 Introduction........................................................................................................... 33 3.2 A moderately fast growing species: Siganus sutor............................................... 33 3.2.1 Growth .................................................................................................... 33 3.2.2 Length-weight ......................................................................................... 35 3.2.3 Natural mortality...................................................................................... 36 3.2.4 Reproduction .......................................................................................... 37 3.2.5 Stock-recruitment.................................................................................... 37 3.2.6 Annual variation in recruitment ............................................................... 37 3.2.7 Seasons.................................................................................................. 38 3.2.8 Age/length-at-capture ............................................................................. 39 R7835 Effects of fish life history strategies on management Page v 3.3 A slow growing species: Lethrinus mahsena........................................................ 39 3.3.1 Growth .................................................................................................... 39 3.3.2 Covariance matrix of growth parameters................................................ 39 3.3.3 Length-weight ......................................................................................... 40 3.3.4 Estimation of natural mortality ................................................................ 40 3.3.5 Reproduction .......................................................................................... 41 3.3.6 Stock-recruitment.................................................................................... 41 3.3.7 Annual variation in recruitment ............................................................... 41 3.3.8 Seasons.................................................................................................. 42 3.3.9 Age/length-at-capture ............................................................................. 42 3.4 Summary .............................................................................................................. 43 4 Management strategy simulation ................................................................................ 45 4.1 Introduction........................................................................................................... 45 4.2 Historical overview of management simulations................................................... 46 4.2.1 Initial setup and parameter estimation.................................................... 46 4.2.2 Management Simulations ....................................................................... 49 4.3 Estimation of fishing mortality............................................................................... 53 4.3.1 Bias in existing length-based equilibrium methods................................. 53 4.3.2 Tuning..................................................................................................... 54 4.3.3 A non-equilibrium length-based method for estimating fishing mortality 55 4.3.4 A non-equilibrium age-based method for estimating fishing mortality .... 56 4.4 Simulation of management................................................................................... 57 4.5 Management performance measures................................................................... 58 5 The suitability of length-based and age-based methods for informing management based on species with different life histories ...........................................................
Recommended publications
  • Endoparasitic Helminths of the Whitespotted Rabbitfish
    Belg. J. Zool. - Volume 126 ( 1996) - 1ssue 1 - pages 21-36 - Brussels 1996 Received : 13 September 1995 ENDOPARASITIC HELMINTHS OF THE WHITESPOTTED RABBITFISH (SIGANUS SUTOR (Valenciennes,1835)) OF THE KENYAN COAST: DISTRIBUTION WITHIN THE HOST POPULATION AND MICROHABITAT USE ALD EGONDA GEETS AND FRAN S OLLEVIER La bora tory for Ecolo gy and Aquaculture, Zoological lnstitute, Catholic University of Leuven, Naamsestraat 59, B-3000 Leuven (Belgiwn) Summary. The parasitic fatma of the alimentary tract of adult whi tespotted rabbitfish, Siganus sutor, sampled in December 1990 at the Kenyan coast, was in vestigated. Fi ve endoparasites were fo und: the di genean trematodes Opisthogonoporoides hanwnanthai, Gyliauchen papillatus and 1-/exan.gium sigani, the acanthocephalan Sclerocollum rubrimaris and th e nematode Procamm.alanus elatensis. No uninfected fish, nor single species infections occurred. Parasite population data showed ve1y hi gh prevalences for ali endoparasites, ranging from 68. 18 % to 100 %. G. papi/lat us occurred with the hi ghest mean intensity, 201.68 ± 12 .54 parasites per infected fi sb. The parasites were over­ di spersed within their host's population and frequency distributions generall y fitted the n egative binomial function. The relationship between host size and parasite burden showed that smaller fish were more heavil y infected. The infection with O. hanumanthai and H. sigani decreased significant­ ly with total length of S. su tor. Study of th e associations between parasites showed that the iutensi­ ties of the three digenean species were significantly positi ve!y correlated. Possible transmi ssion stra­ tegies of the di genea and impact of the feeding habits of S.
    [Show full text]
  • AN ASSESSMENT of the KENYAN COASTAL ARTISANAL FISHERY and IMPLICATIONS for the INTRODUCTION of Fads Thesis Submitted in Fulfillm
    An Assessment of the Kenyan Coastal Artisanal Fishery and Implications for the Introduction of FADs. Item Type Thesis/Dissertation Authors Mbaru, Emmanuel Kakunde Publisher Rhodes University Download date 24/09/2021 00:29:40 Link to Item http://hdl.handle.net/1834/6844 AN ASSESSMENT OF THE KENYAN COASTAL ARTISANAL FISHERY AND IMPLICATIONS FOR THE INTRODUCTION OF FADs Thesis submitted in fulfillment of the requirements for the degree of MASTER OF SCIENCE of RHODES UNIVERSITY By EMMANUEL KAKUNDE MBARU December 2012 i ABSTRACT The marine fishery in Kenya is predominantly small-scale and artisanal with about 11,000 fishers intensely fishing near shore coastal reefs using minimally selective fishing gears. A large majority (88%) of fishers use outdated equipment such as basket traps, beach seines, hand lines (hook and lines), fence traps, gillnets, spearguns and cast nets. Handmade canoes propelled by paddles (kasia) or sail power are used to access offshore waters, while only a few fishers have motorized boats. Although fishers along this coast know and express the potential of offshore fishing, most of them are disempowered and unable to access any of the largely untapped offshore pelagic resources. Using a unique dataset from four distinct coastal areas: Funzi-Shirazi bay area, Diani-Chale area, Mombasa-Kilifi north coast area and the Malindi-Ungwana bay area, containing species level length frequency catch data from the multi-gear and multi-species fishery, abundance of specific species, gear use comparisons in various regions, catch per unit effort and total catch estimate over a nine year period (2001 – 2009) were evaluated. Despite high diversity in the fishery, five species (Lethrinus lentjan, Siganus sutor, Leptoscarus vaigiensis, Lethrinus harak and Parupeneus macronemus) represented over 75% of the catch.
    [Show full text]
  • Genetic Connectivity of Fish in the Western Indian Ocean
    Genetic connectivity of fish in the Western Indian Ocean Oskar Henriksson Department of Zoology Stockholm University 1 Department of Zoology Stockholm University Department of Natural Sciences, Technology and Environmental Studies Södertörns University ©Oskar Henriksson, Stockholm 2013 Cover photo and dividers by Oskar Henriksson Department of Zoology Stockholm University ISBN 978-91-7447-729-0 Department of Natural Sciences, Technology and Environmental Studies, Södertörns University Södertörn doctoral dissertation 84 ISSN 1652-7399 ISBN 978-91-86069-74-2 2 “If you really think the environment is less important than the economy try holding your breath while you count your money.” -Dr. Guy McPherson 3 4 ABSTRACT An almost unbroken fringing reef runs along the east coast of Africa, the lagoon inside the reef is the foundation of almost all artisanal fisheries. It is a low-tech fishery conducted by many people. Some areas can have up to 19 fishermen per square kilometer. High fishing pressures, coupled with declining fish stocks has led to changes in mean size and reproductive age of many exploited species. There is clearly a vital and urgent need for scientifically based management systems, including the utilization of genetic information to guide management practices. This thesis aims to investigate the presence of genetic structures in fish in the Western Indian Ocean. In order to do that we first investigated the historical patterns of connectivity throughout the region (paper I). In papers II and III we focused on local scale connectivity in Kenya and Tanzania and finally in paper IV we investigate the large-scale contemporary gene flow throughout the Western Indian Ocean.
    [Show full text]
  • And Endoparasites of Tbe Rabbitfisb, Siganus Sutor (Cuvier & Valenciennes, 1835) of Tbe Kenyan Coast
    <1"2003~NISTCNRS. Tous droits de propriélé inlellcctuclle réscrvés. Reproduction. représcntation ct diffusion intcrditcs. Loi du 01/07/92. Anidcs 5. 6 Cl7 dcs CGV. VUZ (VZW) . VLAAMS INSTITUUT VOOR DE ZEE FLANDERS MARINE INSTITUTE Oostende - Be/gium - --- - Afr. J. Eco/. 1995. Volume 33, pages 405-416 Tbe metazoan ecto- and endoparasites of tbe rabbitfisb, Siganus sutor (Cuvier & Valenciennes, 1835) of tbe Kenyan coast. I. E. MARTENS1* and J. MOENS2 IDepartment of Zo%gy. University of Nairobi, P.O. Box 30197, Nairobi, Kenya and 2Z00/ogy Research Group, Department SBG, University of Limburg, B-3590 Diepenbeek. Be/gium Summary In a survey of the metazoan ecto- and endoparasites of Siganus sutor (Cuvier & Valenciennes, 1835), a commercially important herbivorous fish from the Kenyan coast, sixteen species of parasites are found. The gill parasites include Monogenea (Tetrancistrum sigani Goto & Kikuchi, 1917; Microcotyle mouwoi Ishii & Sawada, 1938; Pseudohaliotrema sp. I and sp. 2, and an unidentified Microcotylidae species); Copepoda (Caligus sp. and Hatschekia sp.); and Isopoda (one Gnathiidae species). The intestinal parasites found are Digenea (Opisthogonoporoides cf. hanumanthai Madhavi, 1972; Gyliauchen papillatus Goto & Matsudaira, 1918; Hexangium sigani Goto & Ozaki, 1929; and three other unidentified digeneans); Acanthocephala (SclerocollumrubrimarisSchmidt & Paperna, 1978); and Nematoda (Procamallanussigani Yamaguti, 1935).The species listed are first records for the Kenyan coast. Infection prevalence, mean intensity and site specificityare determined for the different parasite species. The parasites have an aggregated frequency distri- bution in the host population: some individuals of the siganid population are more heavily infected than expected in a random distribution, while others are very little or not at all infected.
    [Show full text]
  • The Ecological and Functional Roles of Commercially Important Rabbitfish Species in a Marine Environment
    The ecological and functional roles of commercially important rabbitfish species in a marine environment Ameer Ebrahim BSc (Hons) A thesis submitted for the degree of Doctor of Philosophy at The University of Queensland in 2019 School of Biological Sciences Abstract Herbivorous fishes have consistently been found to have a significant positive impact on the resilience of coral reefs. Their feeding and foraging actions shape the capacity of reefs to both resist, and recover from, disturbance. Relatively little is known, however, about which ecological features in particular influence their distributions, movements, and foraging behaviours. Furthermore, the manner in which their biomass is altered by human actions remains poorly understood. Understanding and appreciating these key factors may help improve global management strategies of fisheries and coral reef habitats. Overall, this thesis provides a framework to establish the ecological functions of commercially important herbivorous fishes. This will not only help authorities establish effective management strategies to curb fishing pressure, but will also provide an indication of the capacity of reefs to resist or recover from disturbances that lead to algal dominance. At present, there is a noticeable gap in the literature pertaining to the ecological role that individual herbivorous fish species play; contemporary research instead focusses on their overall contribution. To bridge this gap and to render this research relevant to management efforts in the Seychelles, this thesis explored the distribution, ecological functions, and spatial ecology of key rabbitfish species in this archipelago of the Indian Ocean. Rabbitfishes are a crucial food source to the majority of the Western Indian Ocean region, comprising the bulk of their artisanal fisheries.
    [Show full text]
  • Final Thesis Anam Msc. Corrected-Aug.19 2016.Pdf (651.8Kb)
    SOME ASPECTS OF THE BIOLOGY AND TAXONOMY OF RABBITFISHES (FAMILY: SIGANIDAE) FROM KENYAN INSHORE MARINE WATERS OKETCH, ANAM RASHID A thesis submitted in partial fulfillment of the requirements for the Degree of Master of Science in Fisheries of Pwani University. JUNE, 2016 ii iii Dedication This thesis is dedicated to my family, special feeling of gratitude to them; I will always remember their words of encouragement and push for determination. iv Acknowledgement Thanks to Almighty God, for the gift of life and resources for this study. My sincere and utmost appreciation goes to my supervisors Prof. Mlewa Chrisestom Mwatete and Dr. Nina Wambiji for their support and patient guidance during the course of this study. I am highly grateful to the Kenya Coastal Development Project (KCDP) and National Commission for Science and Technology (NACOSTI) for providing partial financial support for this study. Special thanks go to the Director Kenya Marine and Fisheries Research Institute (KMFRI) for granting me off duty and consent to have unlimited laboratory access. I would like to express my gratitude to James Gonda for his assistance in the field and laboratory work and Pascal Thoya for the help with the map of Kenya coastline. Finally, I would wish to sincerely thank my wife and our children for their support and understanding during this study. v Abstract Rabbitfishes (Siganidae) are valuable commercial species in many parts of the world. Along the East African coast, they constitute important food and commercial marine fish resources. However information on their biology and taxonomy is scanty. Therefore this study was aimed at bridging the knowledge gap on their taxonomy and distribution.
    [Show full text]
  • IFC/GEF Vilanculos Coastal Wildlife Sanctuary Project
    REPORT 1: BRUTON, MN IFC/GEF Vilanculos Coastal Wildlife Sanctuary Project Biodiversity Management Plan: Sub-Activity ‘Marine Systems’ MN Bruton MTN ScienCentre, Cape Town Preamble: If you were to design a place with maximum diversity, choose a location on the tropical east coast of Africa, add a peninsula, a large bay, tidal sand flats, an estuarine lagoon, sea grass beds, freshwater lakes, extensive mangrove swamps and reed swamps, throw in coral and rocky reefs, idyllic sandy beaches, forested dunes and a wide tidal range, and then sprinkle it with over 400 species of fishes, including the elusive sea horses and mudskippers, thousands of rare and unusual invertebrates, nesting turtles, millions of jellyfish, the enigmatic dugong, giant manta rays and whales offshore. Improve the mix by adding items of cultural diversity, including traditional fisherfolk and life styles, Arabian dhows, expert boat builders, an historic lighthouse, ancient middens, a dark past but a bright future, thatched camps under satin skies, and the night-time drum beat of Africa. What do you have? The Vilanculos Coastal Wildlife Sanctuary in Inhambane province, Mozambique. 1. Holistic analysis of marine, estuarine and lagoonal systems Introduction: The Vilanculos Coastal Wildlife Sanctuary (VCWS) comprises a series of interlinked marine, coastal, estuarine, lagoonal, terrestrial and freshwater systems that, in combination, form one of the most diverse and interesting biodiversity hotspots on the east coast of Africa. Furthermore, the area has a rich and interesting cultural history that combines elements of Africa, Asia and Europe. The biological and cultural diversity of the place need to be considered together in order to appreciate its real value.
    [Show full text]
  • A Mobile Application for Fish Species Recognition Using Image Processing Techniques and Deep Learning
    International Journal of Computing and Digital Systems ISSN (2210-142X) Int. J. Com. Dig. Sys. 10, No. 1 (Jan-2021) http://dx.doi.org/10.12785/ijcds/100101 SuperFish: A Mobile Application for Fish Species Recognition using Image Processing Techniques and Deep Learning Sameerchand Pudaruth, Nadeem Nazurally, Chandani Appadoo, Somveer Kishnah, Munusami Vinayaganidhi, Ihtishaam Mohammoodally, Yameen Assot Ally and Fadil Chady University of Mauritius, Mauritius E-mail address of corresponding author: [email protected] Received ## Jul. 2020, Revised ## Sep. 2020, Accepted ## Nov. 2020, Published ## Jan. 2021 Abstract: People from all around the world face problems in the identification of fish species and users need to have access to scientific expertise to do so and, the situation is not different for Mauritians. Thus, in this project, an innovative smartphone application has been developed for the identification of fish species that are commonly found in the lagoons and coastal areas, including estuaries and the outer reef zones of Mauritius. Our dataset consists of 1520 images with 40 images for each of the 38 fish species that was studied. Eighty-percent of the data was used for training, ten percent was used for validation and the remaining ten percent was used for testing. All the images were first converted to the grayscale format before the application of a Gaussian blur to remove noise. A thresholding operation was then performed on the images in order to subtract the fish from the background. This enabled us to draw a contour around the fish from which several features were extracted. A number of classifiers such as kNN, Support Vector Machines, neural networks, decision trees and random forest were used to find the best performing one.
    [Show full text]
  • ABUNDÂNCIA DE PEIXE COELHO SAPATEIRO, Siganus Sutor (VALENCIENNES, 1835) NO NORTE DE MOÇAMBIQUE PARA PLANEJAMENTO DE GESTÃO
    Rev. Bras. Eng. Pesca (2020) 1 (1): 2021 DOI ARTIGO REVISTA BRASILEIRA DE ENGENHARIA DE PESCA ABUNDÂNCIA DE PEIXE COELHO SAPATEIRO, Siganus sutor (VALENCIENNES, 1835) NO NORTE DE MOÇAMBIQUE PARA PLANEJAMENTO DE GESTÃO ABUNDANCE OF WHITESPOTTED RABBITFISH, Siganus sutor (VALENCIENNES, 1835) IN THE NORTHERN MOZAMBIQUE FOR MANAGEMENT PLANNING Sidónio Paulino Raúl MACHAIEIE1* & Isabel Marques da SILVA1 1Facudade de Ciências Naturais, Universidade Lúrio, CP 958, Pemba, Cabo Delgado, Moçambique *E-mail: [email protected] Recebido: 31/03/2020 / Publicado: 01/03/21 manutenção desta espécie. Todavia, esta informação pode ser usada para o ordenamento da pescaria do Resumo - O peixe coelho sapateiro Siganus sutor é um Siganus sutor no norte de Moçambique. dos recursos pesqueiros mais importante das pescarias artesanais em Cabo Delgado. No entanto, a legislação Palavras-chave: Siganus sutor; capturas; pesca pesqueira em vigor não tem qualquer regulamentação artesanal; oceano índico ocidental; gestão pesqueira. da pesca desta espécie. O estudo da abundância desta espécie é importante na medida em que permite Abstract - Whitespotted rabbitfish Siganus sutor is determinar medidas de conservação visando à one of the most important fishing resources in artisanal manutenção dos estoques pesqueiros da espécie Siganus sutor na região. O presente estudo teve como fisheries in Cabo Delgado. However, the fishing objetivo determinar abundância do Siganus sutor em legislation in force does not have any fishing Cabo Delgado. Foram utilizados dados de amostragem regulations for this species. The study of abundance of biológica correspondente a composição das capturas this species is important because it allows the em peso e esforço de pesca aos desembarques das determination of conservation measures aiming at pescarias ao longo da província de Cabo Delgado, no maintaining the fish stocks of Siganus sutor in the período entre 2015 e 2020, disponíveis na base de region.
    [Show full text]
  • Kenya National Biodiversity Threat Assessment
    Kenya National Biodiversity Threat Assessment Direct Human Threats Impacting Kenya’s Biodiversity 1st September 2020 The report was prepared by Masumi S. Gudka for IUCN – BIODEV2030 Contents Acknowledgements ........................................................................................................................ c Abbreviations and Acronyms ........................................................................................................ e Executive Summary ........................................................................................................................ 1 Introduction ................................................................................................................................... 1 Methodology, Results & Analyses ................................................................................................. 1 Conclusion & Recommendations................................................................................................... 3 1. Introduction ................................................................................................................................. 5 1.1 BIODEV2030: Mainstreaming Biodiversity into Key Economic Sectors ................................... 5 1.2 BIODEV2030: Supporting Kenya Vision 2030 ......................................................................... 6 1.3 Purpose of the Assessment ..................................................................................................... 8 2. Methodology ..............................................................................................................................
    [Show full text]
  • (Siganidae), Within the Dar Es Salaam Marine Reserves, Tanzania
    Western Indian OceanTRAP J. FISHERY Mar. Sci. & R EPRODUCVol. 8, No.TIVE 1, BIOLOGY pp. 75–86, OF T HE2009 WHITESPOttED RABBITFISH 75 © 2009 WIOMSA Trap Fishery and Reproductive Biology of the Whitespotted Rabbitfish Siganus sutor (Siganidae), within the Dar es Salaam Marine Reserves, Tanzania A.T. Kamukuru Department of Aquatic Sciences and Fisheries, University of Dar es Salaam, P.O. Box 60091, Dar es Salaam, Tanzania Keywords: Trap fishery, rabbitfishes, Siganus, reproduction, marine reserves, Tanzania Abstract—Fish samples and catch data were collected monthly from traditional basket fish traps set on reefs within the Dar es Salaam Marine Reserves (DMRs) to evaluate trap catch dynamics and reproductive biology of the rabbit fishSiganus sutor (Valenciennes 1835). Trap catch composition was 85% rabbitfishes by weight with a mean (± SE) catch per unit effort (CPUE) of 2.8 ± 0.1 kg trap-1 day-1 during a fishing season, which lasted between September 2004 and May 2005. CPUE did not differ significantly with lunar cycle, but exhibited a spatial variation, the highest being from Fungu Yasini Marine Reserve, which is further from shore. The spawning season of S. sutor is protracted, lasting between October and May, peaking in March. Size at first sexual maturity was 217.1 and 227.7 mm TL for male and female S. sutor, respectively. The species exhibits a size-dependent sex ratio, with a preponderance of females at larger sizes. The species shows high fecundity at a maximum of 1,300,400 oocytes for 396 mm TL female. Average (± SE) total fecundity was 627,052 ± 78,886 oocytes per female of 266 to 396 mm TL.
    [Show full text]
  • Schizothorax Spp
    ICHTHYOFAUNA OF LIDDER STREAM WITH EMPHASIS ON HAEMATOBIOCHEMICAL STUDY OF SCHIZOTHORAX SPP. DISSERTATION Submitted in Partial Fulfillment of the Requirements for the Award of the Degree of MASTER OF PHILOSOPHY In ZOOLOGY By FARHANA SAREER Prof. (Dr.) M. Z. Chishti Prof. (Dr.) A. R. Yousuf Co - Supervisor Supervisor Prof. Emeritus Professor Centre of Research for Development/ University of Kashmir, Sgr. P.G. Department of Environmental Science University of Kashmir, Sgr. CENTRE OF RESEARCH FOR DEVELOPMENT FACULTY OF SCIENCE University of Kashmir Hazratbal, Srinagar - 190 006 (NAAC Accredited Grade 'A' University) October 2011 CORD, University of Kashmir Centre of Research for Development University of Kashmir Srinagar – 190 006, Kashmir No: Date: Certificate This is to certify that the dissertation entitled “ICHTHYOFAUNA OF LIDDER STREAM WITH EMPHASIS ON HAEMATOBIOCHEMICAL STUDY OF SCHIZOTHORAX SPP.” submitted to the University of Kashmir for the award of the Degree MASTERS OF PHILOSOPHY IN ZOOLOGY, is the original research work of Ms. Farhana Sareer, a bonafide M. Phil. Research Scholar of the Centre, carried out under my supervision. The dissertation has not been submitted to this University or to some other University so far and is submitted for the first time. It is further certified that this dissertation is fit for submission for the degree of Masters of Philosophy (M. Phil.) in Zoology and the candidate has fulfilled all the statutory requirements for the completion of the M. Phil. Programme. Prof. (Dr.) M.Z.Chishti Prof. (Dr.) A.R Yousuf CO-Supervisor Supervisor Prof. Emeritus Professor Centre of Research for Development University of Kashmir, Sgr. P.G.
    [Show full text]