DOCSLIB.ORG

SOIL Ph MAP ( Key Rice Areas ) PROVINCE of BOHOL

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
SOIL Ph MAP ( Key Rice Areas ) PROVINCE of BOHOL 123°40' 124°0' 124°20' 124°40' CEBU Hilutangan Channel R E P U B L I C O F T H E P H I L I P P I N E S DEPARTMENTDEPARTMENT OFOF AGRICULTUREAGRICULTURE BUREAU OF SOILS AND Canigao Channel WATER MANAGEMENT Elliptical Road Cor. Visayas Ave., Diliman, Quezon City SOIL pH MAP ( Key Rice Areas ) PROVINCE OF BOHOL ° Getafe Talibon ! ! SCALE 1:110,000 Bien Unido ! 0 2 4 6 8 10 Kilometers Projection : Transverse Mercator President Carlos P. Garcia ! Datum : PRS 1992 DISCLAIMER : All political boundaries are not authoritative Cebu Strait Buenavista Trinidad ! ! LOCATION MAP Carcar Bay Ubay NEGROS OCC. ! 10°40' CEBU CAMOTES SEA Tañon Strait LEYTE Cansaga Bay LUZON 15°0' CEBU LEYTE Inabanga ! Carcar Bay 10°0' Badian Bay BOHOL Cogton Bay 10°0' VISAYAS Panglao Bay 10°0' 10°0' 9°20' BOHOL SEA SIQUIJOR Maria Bay CAMIGUIN MINDANAO San Miguel 5°0' ! 124°0' 124°40' 120°0' 125°0' Clarin ! Tubigon Cambugsay ! Dam Danao ^ Cabulao Bay Sagbayan ! Alicia ! Dagohoy Calape ! ! Calape Bay Mabini ! San Isidro ! Catigbian Cebu Strait ! Cogton Bay Pilar ! Carmen Pilar Dam ! Candijay ! Sierra Bullones ! Loon ! Batuan ! Antequera ! Guindulman ! Balilihan ! Anda ! Maribojoc ! Cortes ! Duero Bilar ! Sevilla ! Maribojoc Bay ! Corella Sikatuna Guindulman Bay ! ! LEGEND 9°40' 9°40' pH Value GENERAL AREA Jagna MAPPING UNIT DESCRIPTION ! (1:1 Ratio) RATING ha % Tagbilaran Nearly Neutral to 1,143 3.23 \ Loboc ! 4.5 and below Low Extremely Alkaline, Extremely Acid 16,398 46.34 Dauis 1,617 4.57 ! Baclayon ! 4.6 - 5.0 Moderately low Very Strongly Acid Garcia Hernandez 2,472 6.99 ! Alburquerque Valencia Bohol 2,036 5.75 ! Dimiao ! 5.1 - 5.5 Moderately High Strongly Acid ! 3,029 8.56 Loay ! Moderately Acid 2,934 8.29 Lila 5.6 - 6.8 High ! to Slightly Acid 5,757 16.27 Panglao T O T A L 35,386 100.00 ! Paddy Irrigated Paddy Non Irrigated Area estimated based on field survey, other information from DA-RFO's, MA's, NIA Service Area, NAMRIA Land Cover (2010), and BSWM Land Use System Map Panglao Bay CONVENTIONAL SIGNS MISCELLANEOUS INFORMATION ROADS BOUNDARY HYDROLOGY SOURCES OF INFORMATION : Topographic information taken from NAMRIA Topographic Map at a scale of 1:50,000. Elevation data taken from SRTM 1 arc-second global dataset (2015). Bathymetry information taken from British Oceanographic Centre. Soil pH status data gathered through the Soil Health Assessment- Expressway Regional Rivers / Lake National Soil Sampling and Testing Project Phase I led by the Bureau of Soils and Water Management in partnership with the DA-Regional Field Offices (RFOs) and Local Government Units (LGUs) in 2016. Updated Trunk line Provincial Shoreline by the Soils Survey Division, BSWM in 2019. Primary Users noting errors or omissions in this publication are requested to inform the BSWM, SRDC Bldg., Elliptical Rd., cor. Visayas Avenue, Diliman, Quezon City, Philippines or visit the BSWM website City PLACES Secondary (http://www.bswm.da.gov.ph). Municipal \ ^ Capital City / City Copyright © 2016. All rights reserved to the Bureau of Soils and Water Management. No part of this Tertiary publication may be reproduced, stored in a retrieval system or published without written consent from the P ! Capital Town / Town BSWM. Residential Prepared and produced by the GEOMATICS AND SOIL INFORMATION TECHNOLOGY DIVISION, BSWM. 123°40' 124°0' 124°20' 124°40'.
Load more

Recommended publications
  • Tuna Fishing and a Review of Payaos in the Philippines
    Session 1 - Regional syntheses Tuna fishing and a review of payaos in the Philippines Jonathan O. Dickson*1', Augusto C. Nativiclacl(2) (1) Bureau of Fisheries and Aquatic Resources, 860 Arcadia Bldg., Quezon Avenue, Quezon City 3008, Philippines - [email protected] (2) Frabelle Fishing Company, 1051 North Bay Blvd., Navotas, Metro Manila, Philippines Abstract Payao is a traditional concept, which has been successfully commercialized to increase the landings of several species valuable to the country's export and local industries. It has become one of the most important developments in pelagic fishing that significantly contributed to increased tuna production and expansion of purse seine and other fishing gears. The introduction of the payao in tuna fishing in 1975 triggered the rapid development of the tuna and small pelagic fishery. With limited management schemes and strategies, however, unstable tuna and tuna-like species production was experienced in the 1980s and 1990s. In this paper, the evolution and development of the payao with emphasis on the technological aspect are reviewed. The present practices and techniques of payao in various parts of the country, including its structure, ownership, distribution, and fishing operations are discussed. Monitoring results of purse seine/ringnet operations including handline using payao in Celebes Sea and Western Luzon are presented to compare fishing styles and techniques, payao designs and species caught. The fishing gears in various regions of the country for harvesting payao are enumerated and discussed. The inshore and offshore payaos in terms of sea depth, location, designs, fishing methods and catch composi- tion are also compared. Fishing companies and fisherfolk associations involved in payao operation are presented to determine extent of uti- lization and involvement in the municipal and commercial sectors of the fishing industry.
    [Show full text]
  • Ecology and Behaviour of Tarsius Syrichta in the Wild
    O',F Tarsius syrichta ECOLOGY AND BEHAVIOUR - IN BOHOL, PHILIPPINES: IMPLICATIONS FOR CONSERVATION By Irene Neri-Arboleda D.V.M. A thesis submitted in fulfillment of the requirements for the degree of Master of Applied Science Department of Applied and Molecular Ecology University of Adelaide, South Australia 2001 TABLE OF CONTENTS DAge Title Page I Table of Contents............ 2 List of Tables..... 6 List of Figures.... 8 Acknowledgements... 10 Dedication 11 I)eclaration............ t2 Abstract.. 13 Chapter I GENERAL INTRODUCTION... l5 1.1 Philippine Biodiversity ........... t6 1.2 Thesis Format.... l9 1.3 Project Aims....... 20 Chapter 2 REVIEIV OF TARSIER BIOLOGY...... 2t 2.1 History and Distribution..... 22 2.t.1 History of Discovery... .. 22 2.1.2 Distribution...... 24 2.1.3 Subspecies of T. syrichta...... 24 2.2 Behaviour and Ecology.......... 27 2.2.1 Home Ranges. 27 2.2.2 Social Structure... 30 2.2.3 Reproductive Behaviour... 3l 2.2.4 Diet and Feeding Behaviour 32 2.2.5 Locomotion and Activity Patterns. 34 2.2.6 Population Density. 36 2.2.7 Habitat Preferences... ... 37 2.3 Summary of Review. 40 Chapter 3 FßLD SITE AI\D GEIYERAL METHODS.-..-....... 42 3.1 Field Site........ 43 3. 1.1 Geological History of the Philippines 43 3.1.2 Research Area: Corella, Bohol. 44 3.1.3 Physical Setting. 47 3.t.4 Climate. 47 3.1.5 Flora.. 50 3.1.6 Fauna. 53 3.1.7 Human Population 54 t page 3.1.8 Tourism 55 3.2 Methods.. 55 3.2.1 Mapping.
    [Show full text]
  • Vulnerability Assessment of Olango Island to Predicted Climate Change and Sea Level Rise
    Vulnerability assessment of Olango Island to predicted climate change and sea level rise Amuerfino Mapalo Department of Environment and Natural Resources, Region 7 Banilad, Mandaue City, Cebu, Philippines, 6014 ([email protected]) Executive summary The Asia-Pacific Network for Global Change Research (APN) funded a study assessing the vulnerability of Olango Island, in the Central Philippines, to predicted climate change and sea level rise. The study was coordinated by the Environmental Research Institute of the Supervising Scientist (eriss), in Australia, and Wetlands International–Oceania, with the major local collaborator being the Philippines Department of Environment and Natural Resources (DENR). The study’s major objectives were to raise awareness of the issue of climate change and sea level rise in the Asia-Pacific region, to provide advice and training to national and local agencies on procedures for Vulnerability Assessment, and specifically, to obtain a preliminary understanding of the potential impacts of climate change and sea level rise on the biological, physical and socio-economic attributes of Olango Island. Olango Island was chosen as a study site for several reasons: It is a small, coral reef island (~6 × 3 km) with low topographical relief and a maximum elevation above sea level of only 9 m; it sustains a population of over 20 000 and is already under pressure from anthropogenic activities including fishing, groundwater extraction and mangrove harvesting; it is a major wetland site for shorebirds, being nominated for the East Asian–Australasian Shorebird Reserve Network and listed as a wetland of international importance by the Ramsar Wetland Convention. Due to its importance as a flyway stopover site, a 920 ha wildlife sanctuary was established in the south of the island.
    [Show full text]
  • Southern Leyte Coral Reef Conservation Project Is to Give SCUBA Diving and Marine Survey Training to Local Counterparts
    Southern LeLeyteyte Coral Reef Conservation Project - Results of Community and Scientific Work - May 2004 to December 2005 1 Coral Cay Conservation Effective coastal zone management, qualified project scientists, prior to including conservation of coral reefs, assisting in the acquisition of data. requires a holistic and multi-sectoral Finances generated from the volunteer approach, which is often a highly programme allow CCC to provide a range technical and costly process and one that of services, including data acquisition, many developing countries cannot assimilation and synthesis, conservation adequately afford. With appropriate education, technical skills training and training, non-specialist volunteer divers other capacity building programmes. CCC have been shown to be able to provide is associated with the Coral Cay useful data for coastal zone management Conservation Trust (the only British-based at little or no cost to the host country charity dedicated to protecting coral (Hunter and Maragos, 1992; Mumby et al., reefs). 1995; Wells, 1995; Darwall and Dulvy, 1996; Erdmann et al., 1997). This technique has been pioneered and successfully applied by Coral Cay Conservation (CCC), a British not-for- profit organisation. Founded in 1986, CCC is dedicated to ‘providing resources to protect livelihoods and alleviate poverty through the protection, restoration and sustainable use of coral reefs and tropical forests’ in collaboration with government and non- governmental organisations within a host country. CCC does not charge the host country for the services it provides and is primarily self-financed through a pioneering volunteer participatory scheme whereby international volunteers are given the opportunity to join a phase of each project in return for a financial contribution towards the project costs.
    [Show full text]
  • ©2011 Charles Donald Mcglynn ALL RIGHTS RESERVED
    ©2011 Charles Donald McGlynn ALL RIGHTS RESERVED AN ISLAND ENVIRONMENT: SALTWATER INTRUSION, GROUNDWATER MANAGEMENT AND WATER PRIVATIZATION IN CEBU By CHARLES D. MCGLYNN A Dissertation submitted to the Graduate School-New Brunswick Rutgers, The State University of New Jersey in partial fulfillment of the requirements for the degree of Doctor of Philosophy Graduate Program in Geography Written under the direction of Dr. Robert Hordon And approved by _________________________________ _________________________________ _________________________________ _________________________________ _________________________________ New Brunswick, New Jersey October, 2011 ABSTRACT OF THE DISSERTATION An Island Environment: Saltwater Intrusion, Groundwater Management and Privatization in Cebu By CHARLES DONALD MCGLYNN Dissertation Director: Dr. Robert M. Hordon “A nation that fails to plan intelligently for the development and protection of its precious waters will be condemned to wither because of its short sightedness” (Johnson 1968) In the midst of this “Decade of Water”, the Philippines is faced with one of its major cities plagued by water problems for the same shortsightedness that President Lyndon Johnson described in 1968. The fact that this city is in a humid climate rather than a parched one makes the neglect that much more compelling. As Matthew Gandy (2003) states in Concrete and Clay, “the history of cities can be read as a history of water”. As this research indicates, Cebu City is no exception. Cebu is the second largest city in the Philippine archipelago and is an ideal place to study these issues for several reasons. It is continuing to experience strong population growth. Also, by all accounts the groundwater in this metropolitan area of over two million people is rapidly deteriorating due to saltwater intrusion.
    [Show full text]
  • Establishing Larval Exchange and Reef Connectivity Using Larval Dispersal Models
    PHILIPPINE ENVIRONMENTAL GOVERNANCE 2 PROJECT (ECOGOV 2) Establishing Larval Exchange and Reef Connectivity Using Larval Dispersal Models March 13, 2007 This publication was produced for review by the United States Agency for International Development. It was prepared by Development Alternatives, Inc. The EcoGov 2 Project is an initiative of the Government of the Philippines, implemented in partnership with the Department of Environment and Natural Resources, Department of the Interior and Local Government, local government units and other stakeholders, funded by the United States Agency for International Development and managed by Development Alternatives, Inc. and its subcontractors: Cesar Virata & Associates, Inc. n Deloitte Touche Tohmatsu Emerging Markets n The Marine Environment and Resources Foundation, Inc. n The Media Network n Orient Integrated Development Consultants, Inc. n Resources, Environment and Economics Center for Studies, Inc. n PHILIPPINE ENVIRONMENTAL GOVERNANCE 2 PROJECT (ECOGOV 2) Establishing Larval Exchange and Reef Connectivity Using Larval Dispersal Models March 13, 2007 The author’s views expressed in this publication do not necessarily reflect the views of the United States Agency for International Development or the United States Government. TABLE OF CONTENTS List of Figures..........................................................................................ii List of Tables ..........................................................................................iii Introduction..............................................................................................5
    [Show full text]
  • Southern Leyte Coral Reef Conservation Project – Second Year Report and Coral Species List for Sogod Bay
    SOUTHERN LEYTE CORAL REEF CONSERVATION PROJECT – SECOND YEAR REPORT AND CORAL SPECIES LIST FOR SOGOD BAY. Napantau Coral Reef, Panaon, Southern Leyte. Photo Taken by Mike Wallace BY JACQUELINE TAYLOR – Chief Technical Advisor SHAY O’FARRELL – Project Scientist RYAN WALKER – Marine Science Co-ordinator DOUG FENNER – Coral Taxonomist PETER RAINES – Managing Director SEPTEMBER 2004 CORAL CAY CONSERVATION LTD. 13th Floor, The Tower, London, SW19 2JG TEL: +44 (0)870 750 0668, FAX: +44 (0)870 750 0667 Email: [email protected] www: http://www.coralcay.org/ PROVINCIAL GOVERNMENT OF SOUTHERN LEYTE. Provincial Capitol, Ibarra, Maasin, Southern Leyte, Philippines TEL: (053) 548-0882 / 38 PHILIPPINE REEF AND RAINFOREST CONSERVATION FOUNDATION, INC. #3 Dona Ceferina Bld, Mandallagan, Bacolod City, Negros Occidental, 6100 Philippines. Email: [email protected] CONTENTS Acknowledgments........................................................................................................IV Executive Summary......................................................................................................V 1. Introduction............................................................................................................1 1.1 Project Background........................................................................................2 1.2 Previous Studies in the area .................................................................................4 1.3 Threats to the coral reefs of Sogod Bay...............................................................6
    [Show full text]
  • Reconnaissance Geochemical Survey for Uranium and Related Industrial Minerals in Cebu Island
    PNRI B(EA)&<J001 RECONNAISSANCE GEOCHEMICAL SURVEY FOR URANIUM AND RELATED INDUSTRIAL MINERALS IN CEBU ISLAND by Rolando Y. Reyes Angelito F. Ramos Wilfred N. Magsambol r,lmer C. Hernandez March 1989 Philippine Nuclear Research Institute Diliman, Quezon City PNRI B(EA)89001 DPnAMMMCCAWPI? ^rnfiiFMTnAr uEAjUmjiiiunij SURVEY FOE OEAHIUB AND RELATED INDUSTRIAL MINERALS TM PCDTT TCT AMP by Rolando Y. Reyes Aneslito F. Ramos Wilfred N. Magsambol Elmer C. Hernandez March 1989 Philippine Nuclear Research Institute Dill man, Quezon City PNRI (EA)89001 TABLE OF CONTENTS Page Abstract 1 1. Introduction 2 1.1 Purpose and Scope of the Report 2 1.2 Location and Accessibility 2 1.3 Climate, Vegetations and Culture 4 1.4 Previous Work 5 1.5 Present Fieldwork 6 2. Geology and Mineral Resources 7 2.1 Geomorphology 7 2.2 Lithology 9 2.3 Structures 13 2.4 Mineral Deposits 15 3. Procedures 16 3.1 Field Procedures 16 3.2 Analytical Methods 16 3.3 Statistical Treatment of Field and Analytical Data 17 3.4 Map Presentations 22 4. Results and Discussions 22 4.1 Scintillometer Survey 22 4.2 Stream Water Survey 24 4.2.1 Uranium 26 4.2.2 Radon 26 4.3 Uranium in Stream Sediments 29 4.4 Uranium in Heavy Minerals 31 PNRI (EA)89001 TABLE OF CONTENTS (cont'd) Page 4.5 Multi-Element Survey 33 4.5.1 Copper 34 4.5.2 Lead 37 4.5.3 Zinc 40 4.5.4 Manganese 40 4.5.5 Silver 46 4.5.6 Cobalt 46 4.5.7 Nickel 51 4.6 Correlation Between Elements 53 5.
    [Show full text]
  • List of Major Straits of the World
    studentsdisha.in List of Major Straits of the World A strait is a narrow navigable waterway that connects two larger water bodies. It lies between two land masses and formed naturally or by man-made. It is used for transporting goods or people in the world and control the sea and shipping routes of the entire region in the world. It connects the world. Longest Strait in the World- Strait of Malacca (800km), which separates the Malay Peninsula from Sumatra island of Indonesia. Widest Strait in the World- The Denmark Strait or Greenland strait (290km wide).Between Greenland and Iceland Shallowest Strait in the World- Sunda strait. It separates the Java Sea from the Indian Ocean. Smallest/ Narrowest Strait in the World-Bosphorus strait(Narrowest point width is 800m).It separates the Black Sea from the Marmara Sea. Major Straits of the world are: Strait Name Join Between Location Bab-al-Mandeb Red Sea & Gulf of Aden(Arabian sea) Yemen & Djibouti Bass The Tasman Sea & South Sea Australia The Bering Sea & Chukchi Sea(Arctic Bering Alaska (USA) & Russia ocean) Bonifacio Mediterranean Sea Corse & Sardegna Island Bosphorus The Black Sea & Marmara Sea Turkey Cook South Pacific Ocean New Zealand (N& S island) Dardanelles The Marmara Sea & Aegean Sea Turkey The Baffin Bay & Labrador Sea(Atlantic Davis Greenland & Canada ocean) Denmark North Atlantic & Arctic Ocean Greenland & Iceland Dover North sea & Atlantic ocean England & Europe Florida Gulf of Mexico & Atlantic Ocean USA & Cuba Formosa South China Sea &East China Sea China & Taiwan Foveaux
    [Show full text]
  • SOIL FERTILITY MAP ( Key Rice Areas ) PROVINCE of BOHOL
    123°40' 124°0' 124°20' 124°40' CEBU Hilutangan Channel R E P U B L I C O F T H E P H I L I P P I N E S DEPARTMENTDEPARTMENT OFOF AGRICULTUREAGRICULTURE BUREAU OF SOILS AND Canigao Channel WATER MANAGEMENT Elliptical Road Cor. Visayas Ave., Diliman, Quezon City SOIL FERTILITY MAP ( Key Rice Areas ) PROVINCE OF BOHOL ° Getafe Talibon ! ! SCALE 1:110,000 Bien Unido ! 0 2 4 6 8 10 Kilometers Projection : Transverse Mercator President Carlos P. Garcia ! Datum : PRS 1992 DISCLAIMER : All political boundaries are not authoritative Cebu Strait Buenavista Trinidad ! ! LOCATION MAP Carcar Bay Ubay NEGROS OCC. ! 10°40' CEBU CAMOTES SEA Tañon Strait LEYTE Cansaga Bay LUZON 15°0' CEBU LEYTE Inabanga ! Carcar Bay 10°0' Badian Bay BOHOL Cogton Bay 10°0' VISAYAS Panglao Bay 10°0' 10°0' 9°20' BOHOL SEA SIQUIJOR Maria Bay CAMIGUIN MINDANAO San Miguel 5°0' ! 124°0' 124°40' 120°0' 125°0' Clarin ! Tubigon Cambugsay ! Dam Danao ^ Cabulao Bay Sagbayan ! Alicia ! Dagohoy Calape ! ! Calape Bay Mabini ! San Isidro ! Catigbian Cebu Strait ! Cogton Bay Pilar ! Carmen Pilar Dam ! Candijay ! Sierra Bullones ! Loon ! Batuan ! Antequera ! Guindulman ! Balilihan ! Anda ! Maribojoc ! Cortes ! Duero Bilar ! Sevilla ! Maribojoc Bay ! Corella Sikatuna Guindulman Bay ! ! 9°40' 9°40' LEGEND AREA Jagna ! MAPPING UNIT DESCRIPTION ha % Tagbilaran \ Loboc 1,691 4.78 ! Low 1,791 5.06 Dauis 5,673 16.03 ! Baclayon ! Moderately Low Garcia Hernandez 19,447 54.96 ! Alburquerque Valencia Bohol 365 1.03 ! Dimiao ! Moderately High ! 6,205 17.54 Loay ! -- Lila High ! 213 0.60 Panglao T O T A L 35,386 100.00 ! Paddy Irrigated Paddy Non Irrigated Area estimated based on field survey, other information from DA-RFO's, MA's, NIA Service Area, NAMRIA Land Cover (2010), and BSWM Land Use System Map Panglao Bay CONVENTIONAL SIGNS MISCELLANEOUS INFORMATION ROADS BOUNDARY HYDROLOGY SOURCES OF INFORMATION : Topographic information taken from NAMRIA Topographic Map at a scale of 1:50,000.
    [Show full text]
  • PART 3 Scale 1: Publication Edition Scale 1: Publication Edition Scale 1: Publication Edition 13 W Approaches to Cebu Harbour 35,000 Sept
    Natural Date of New Natural Date of New Natural Date of New Chart No. Title of Chart or Plan Chart No. Title of Chart or Plan Chart No. Title of Chart or Plan PART 3 Scale 1: Publication Edition Scale 1: Publication Edition Scale 1: Publication Edition 13 w Approaches to Cebu Harbour 35,000 Sept. 2001 Apr. 2011 1680w Teluk Darvel 100,000 Oct. 1971 Nov. 2009 3626w Approaches to Kota Kinabalu and Teluk Sapangar 35,000 Jan. 1990 - 14 w Cebu Harbour 12,500 June 2001 Apr. 2011 1681w Northern Shore of Sibuko Bay 97,000 Feb. 1893 Mar. 2005 3728w Pulau-Pulau Mantanani to Pulau Banggi 150,000 Mar. 1990 Nov. 2009 287 w Eastern Approaches to Balabac Strait 300,000 Mar. 1990 Feb. 2011 1686w Kunak and Approaches 20,000 Feb. 1968 - 3801w Plans in the Philippine Islands - Apr. 1964 Nov. 2000 340 w Daya Wan and Approaches to Huizhou 60,000 Sept. 2010 Mar. 2011 1844w Brunei Bay and Approaches 75,000 Nov. 1990 Apr. 2010 A Bais 40,000 341 w Macao to Hong Kong 75,000 Nov. 1989 July 2011 Approaches to Sipitang Wharf 25,000 B San Jose de Buenavista 10,000 342 w Shekou Gang to Mawan Gang 15,000 Aug. 2001 Jan. 2010 1852w Tanjung Mangkapadie to Tawau including Lingkas, Bunyu and - June 1994 - C Tagbilaran 20,000 343 w Zhujiang Kou including Approaches to Chiwan, Shekou and Nansha Gang 75,000 Nov. 1989 Nov. 2010 Approaches D San Carlos 50,000 Nansha Gang 30,000 Approaches to Lingkas and Bunyu 100,000 E Port Canoan 5,000 J4 344 w Shanban Zhou to Nizhou Tou 25,000 Aug.
    [Show full text]
  • The Case of Philippine Fisheries
    POPULATION, RESOURCES, AND PATTERNS OF TECHNOLOGICAL CHANGE: THE CASE OF PHILIPPINE FISHERIES TOMAS VERGEL C. JAMIR MARINE RESOURCE MANAGEMENT PROGRAM OREGON STATE UNIVERSITY CORVALLIS, OREGON 97331 1988 POPULATION, RESOURCES, AND PATTERNS OF TECHNOLOGICAL CHANGE: THE CASE OF PHILIPPINE FISHERIES by TOMAS VERGEL C. JAMIR RESEARCH REPORT SUBMITTED TO MARINE RESOURCE MANAGEMENT PROGRAM COLLEGE OF OCEANOGRAPHY OREGON STATE UNIVERSITY CORVALLIS, OREGON 97331 IN PARTIAL FULFILLMENT OF THE REQUIREMENTS FOR THE DEGREE OF MASTER OF SCIENCE SEPTEMBER, 1988 In memory of DAVID CAIMOL JAMIR (1918-1986) ... a true fisherman by heart, the peoples respected maestro, and a good and loving father. ACKNOWLEDGEMENTS I would like to extend my sincerest thanks to the following: Dr. William Pearcy for his patience, constructive criticisms and guidance throughout my stay in the program; to the other members of my final examination committee, Drs. Jefferson Gonor and Bruce deYoung for the valuable time and critical insights/comments that they provided while reviewing this paper, to Prof. James Good, Kathryn Howd, and Donna Obert for their generous help and encouragement; and to Drs. Gordon Matzke and Charles Warren for providing me with a fresh and radically different perspective of looking into Philippine fisheries. My deepest gratitude also goes to the Gonzales family for their kindness and moral support, most especially to Dr. Manolette Gonzales for serving as my informal mentor and primary "testing ground" for my ideas; to Dr. Kevin Hopkins and Margarita Hopkins for providing me with a lot of useful materials and references on Philippine fisheries; to Dr. Magdalena Giron and Miriam Gonzales for their superb Filipino cooking; to Dr.
    [Show full text]