DOCSLIB.ORG

1 Recognising Coastal Features Examine the Features/Landforms Labelled A–N in Figure 1 and on the Photographs on This Page. On

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
1 Recognising Coastal Features Examine the Features/Landforms Labelled A–N in Figure 1 and on the Photographs on This Page. On 1 Recognising coastal features Examine the features/landforms labelled A–N in Figure 1 and on the photographs on this page. On the grid provided on the next page, name each feature and indicate whether it is formed by sea erosion or deposition. Name also one Irish example of each feature. (You may have to research on the internet for some of these examples.) D E C F B A G L K H J I 1 N M 28 Chapter 7 Name of feature Erosion or deposition Irish Example A Bar Deposition by Lady’s Island Lake, Co. Wexford B Lagoon Deposition Lady’s Island Lake, Co. Wexford C Sea cliff Erosion Cliffs of Moher, Co. Clare D Headland Erosion Ballycotton Head, Co. Cork E Sea stack Erosion Ballybunion, Co. Kerry F Sea Arch Erosion Old Head of Kinsale, Co. Cork G Sea Cave Erosion Old Head of Kinsale, Co. Cork H Sea stumps Erosion Malinbeg, Co. Donegal I Wave-cut platform Erosion Roche’s Point, Co. Cork J Bay Erosion Ballycotton Bay, Co. Cork K Beach Deposition Glenbeigh, Co. Kerry L Blow hole Erosion Malinbeg, Co. Donegal M Spit Deposition Portmarnock, Co. Dublin N Tombolo Deposition Sutton, Co. Dublin 2 In the boxes provided, match each letter in Column X with the number of its pair in Column Y. One pair has been completed for you. COLUMN X COLUMN Y A Lagoon 1 Links a former island to the mainland A 2 B Abrasion 2 Bay cut off from the sea by a body of sand B 7 C Tombolo 3 Mounds of sand anchored by marram grass C 1 D Longshore drift 4 Ridge of sand and shingle jutting out into the sea D 6 E Sand dune 5 Deposition when waves are very strong E 3 F Storm beach 6 Movement of material along a beach F 5 G Sand spit 7 Erosion by the load carried by waves G 4 29 New Complete Geography Skills Book 3 (a) Feature of coastal erosion Junior Cert Higher Level Marking Name one feature of coastal erosion and with the aid Scheme for question 3 of a diagram explain how it was formed. (10) (a) Feature of coastal erosion Name feature: 2 marks ______________________________________________[See Sea Cliffs p. 59 or Sea Stock p. 60 Explain how formed: two explanations at 3 marks each to be ______________________________________________of textbook] allocated as follows: ______________________________________________ l Statement: 2m l One development: 1m ______________________________________________ Diagram: 2 marks (1m for diagram ______________________________________________ and 1m for at least one named label) ______________________________________________ ______________________________________________ (b) Feature of glacial erosion (Same marking scheme as for (a) ______________________________________________ above) ______________________________________________ (c) Coasts and people ______________________________________________ How people use coastal areas Name one benefit: 2 marks ______________________________________________ Explain benefit: 3 marks allocated ______________________________________________ as follows: l Statement: 2m ______________________________________________ l One development: 1m ______________________________________________ How people pollute coastal areas (Same marking scheme as for ______________________________________________ coastal areas above) Diagram 30 Chapter 7 (b) Feature of coastal deposition Name one feature of coastal deposition and with the aid of a diagram explain how it was formed. (10) __________________________________________________________________________________[See Beaches p. 62 or Bars p. 63 of textbook.] __________________________________________________________________________________ __________________________________________________________________________________ __________________________________________________________________________________ ___________________________________ ___________________________________ ___________________________________ ___________________________________ ___________________________________ ___________________________________ ___________________________________ ___________________________________ Diagram (c) Coasts and people (i) Name and briefly explain one way in which people use coastal areas. (5) _____________________________________________________________________________Coastal areas can be used for recreation and tourism. Sandy beaches _____________________________________________________________________________such as that at Salthill, Co. Galway, can be used for swimming and _____________________________________________________________________________sunbathing. Angling and boating activities are also popular in coastal _____________________________________________________________________________areas. _____________________________________________________________________________ (ii) Name and briefly explain one way in which people pollute coastal areas. (5) _____________________________________________________________________________Untreated household sewage has polluted some Irish coastal areas. _____________________________________________________________________________Sewage produces nitrogen which causes algae to bloom. Algae can use up _____________________________________________________________________________so much oxygen in the water that other plants or fish may be deprived of _____________________________________________________________________________oxygen and die. _____________________________________________________________________________ _____________________________________________________________________________ 31 New Complete Geography Skills Book 4 Map reading skills Eleven different coastal landforms are labelled 1–11 in red on the Ordnance Survey maps in Figures 2 and 3. Try to match each label with the matching named landform in the grid below. (One match has been completed for you. Some features have been named and labelled on the map to help you identify some numbered features.) sandy beach sand dunes sand spit 2 2 5 4 3 3 1 possible sea stack 10 sea cliffs bay 9 headland 11 Number Matching landform 8 Bay 10 Headland 6 7 2 Lagoon 8 9 Possible sea stack 3 Sand bar One of the Sandy beach features listed in the 11 grid is not a feature of sea erosion or 4 Sand dunes deposition. 5 Sand spit 7 Sea cliffs 6 Small island This feature is: Tombolo 1 ____________________________________Sand dunes 32.
Load more

Recommended publications
  • Responses to Coastal Erosio in Alaska in a Changing Climate
    Responses to Coastal Erosio in Alaska in a Changing Climate A Guide for Coastal Residents, Business and Resource Managers, Engineers, and Builders Orson P. Smith Mikal K. Hendee Responses to Coastal Erosio in Alaska in a Changing Climate A Guide for Coastal Residents, Business and Resource Managers, Engineers, and Builders Orson P. Smith Mikal K. Hendee Alaska Sea Grant College Program University of Alaska Fairbanks SG-ED-75 Elmer E. Rasmuson Library Cataloging in Publication Data: Smith, Orson P. Responses to coastal erosion in Alaska in a changing climate : a guide for coastal residents, business and resource managers, engineers, and builders / Orson P. Smith ; Mikal K. Hendee. – Fairbanks, Alaska : Alaska Sea Grant College Program, University of Alaska Fairbanks, 2011. p.: ill., maps ; cm. - (Alaska Sea Grant College Program, University of Alaska Fairbanks ; SG-ED-75) Includes bibliographical references and index. 1. Coast changes—Alaska—Guidebooks. 2. Shore protection—Alaska—Guidebooks. 3. Beach erosion—Alaska—Guidebooks. 4. Coastal engineering—Alaska—Guidebooks. I. Title. II. Hendee, Mikal K. III. Series: Alaska Sea Grant College Program, University of Alaska Fairbanks; SG-ED-75. TC330.S65 2011 ISBN 978-1-56612-165-1 doi:10.4027/rceacc.2011 © Alaska Sea Grant College Program, University of Alaska Fairbanks. All rights reserved. Credits This book, SG-ED-75, is published by the Alaska Sea Grant College Program, supported by the U.S. Department of Commerce, NOAA National Sea Grant Office, grant NA10OAR4170097, projects A/75-02 and A/161-02; and by the University of Alaska Fairbanks with state funds. Sea Grant is a unique partnership with public and private sectors combining research, education, and technology transfer for the public.
    [Show full text]
  • California's Coastal Sea Caves, NSS News, October 1998
    California’s Coastal Sea Caves by Dave Bunnell Large chamber in Cave-in-Rock Cave, San Luis Obispo County elmets, lights, wetsuits, fins, face California, with its more accessible caves, are undoubtedly caves in Humboldt and Del masks and snorkels, vertical gear, has yielded as many again to the surveyor’s Norte counties, no survey work has been H and sea kayaks were not what I was tape and doubtless many more remain, undertaken there. I’ll begin with the southern used to packing for a cave trip until I especially in the remote northern counties. counties, for that was the original focus of moved to California. But after a couple of Much has been published over the years in sea cave survey. years of caving here, I realized that there were grotto and regional publications, but this is large numbers of caves here that had been the first time I’ve written an overall summary SAN DIEGO COUNTY largely ignored. After all, what caver wants of the Survey’s work on coastal caves. Perhaps the most famous of the sea caves to spend his weekends at the beach? on the California coast are the “seven caves” Systematic exploration and survey of GENERALITIES at La Jolla, formed in a 200’ high cliff of California’s many sea caves really began While not as large on average as the Cretaceous-age sandstone. A perennial when Carol Vesely and I chartered the island caves, the coastal caves are found in tourist favorite, La Jolla Cove and its cavey Southern California Sea Cave Survey in numerous host rocks that lend diverse cliffs are featured on dozens of old postcards.
    [Show full text]
  • Beaches Unit (4.5 Pts) Section
    T. James Noyes, El Camino College Beaches Unit (Topic 6A) – page 1 Name: Beaches Unit (4.5 pts) Section: Beaches and Shorelines are always changing Waves are slowly and inexorably altering the shoreline, breaking down material in some places and carrying it to other places. Each wave has a small effect, but waves keep coming minute after minute, day after day, year after year. Significant changes in the shoreline (tens of feet) can occur within a human lifetime. For example, old maps of Encinitas (located along the coastal cliffs by Interstate 5 on the way down to San Diego) show that it has lost about a city block of land to the sea in the last century. In some places along the coast of Alaska, the shoreline has eroded 900 meters in 50 years, an average of about 18 meters (60 feet) per year! Beach Sediments Beach sediments are composed of whatever sediments are available locally: sand, cobbles, gravel, coral fragments, shell fragments, and so on. (In fact, tiny plastic sediments are making up a larger and larger component of our beaches.) Beach sediments are characterized by (1) the kind of material that they are made out of, (2) their size, (3) their shape, and (4) their sorting. (Well sorted sediments all have about the same size and shape, while poorly sorted sediments are a jumbled mix of sediments with many different sizes and shapes. Lithogenous sediments (“rock sediments”) are produced from the weathering of the rock of the land. Rocks are broken down into pieces (sediments) by the physical impact of water, wind, and other rocks; by chemicals dissolved in water; and repeated heating and cooling.
    [Show full text]
  • Adventure Sea Cave Kayak Tours on Santa Cruz Island at Scorpion Anchorage
    ADVENTURE SEA CAVE KAYAK TOURS ON SANTA CRUZ ISLAND AT SCORPION ANCHORAGE THIS IS NOT A BOOKING CONFIRMATION. The information below is only for reference. Please make sure to reference your booking confirmation sent via email for exact times and locations. If you have any questions please contact the Channel Islands Adventure Company - we will be happy to help you. Paddling Time and Distance 2.5-3 miles, 2.5-3 hours of island kayaking Tour Level of Difficulty Beginner through advanced experience levels welcome. Children under 12 must ride in double kayak with a parent. Adventure Sea Cave Kayak Tour Itinerary Your morning will begin at the Island Packers ferry dock for check-in at either 7am or 8am, depending on which ferry departure time you select (8am departure or 9am departure). You’ll want to look for Channel Islands Adventure Company guides just outside of the Island Packers building. Your guide will have your tickets. Detailed driving directions will be sent upon booking in your confirmation email. The ferry ride is generally 1-1.5 hour(s) depending on wildlife sightings. You’ll then meet your guide(s) on the island at 10:30am.We provide a basic paddling instruction/safety talk and distribute all necessary gear before hitting the water around 11:15am. Afterward we begin the guided paddle along the coast in one direction, exploring the sea caves as you go. At some point you turn around and come back past the landing area and explore in the other direction. You’ll return to the beach around 2:00-2:30pm, and have until about 3:30–4:30pm (your ferry captain or guide will tell you your pick-up time) before leaving the island.
    [Show full text]
  • NPWS Inishmore Island SAC (Site Code: 213) Conservation Objectives
    NPWS Inishmore Island SAC (site code: 213) Conservation objectives supporting document - Marine Habitats Version 1 January 2015 Introduction Inishmore Island SAC is designated for the marine Annex I qualifying interests of Reefs and Submerged or partially submerged sea caves (Figures 1 and 2). A BioMar survey of this site was carried out in 1993 (Picton and Costello, 1997), a seacave survey and intertidal and subtidal reef surveys were undertaken in 2012 (MERC, 2012 and MERC, 2013); these data were used to determine the physical and biological nature of this SAC. The distribution and ecology of intertidal or subtidal seacaves has not previously been the subject of scientific investigation in Ireland and the extents of very few individual caves have been mapped in detail. Whilst surveys undertaken in the UK indicate the structure and functions of seacaves are largely influenced by hydrodynamic forces and water quality, no such information is yet available for Ireland. Aspects of the biology and ecology of the Annex I habitat are provided in Section 1. The corresponding site-specific conservation objectives will facilitate Ireland delivering on its surveillance and reporting obligations under the EU Habitats Directive (92/43/EC). Ireland also has an obligation to ensure that consent decisions concerning operations/activities planned for Natura 2000 sites are informed by an appropriate assessment where the likelihood of such operations or activities having a significant effect on the SAC cannot be excluded. Further ancillary information concerning the practical application of the site-specific objectives and targets in the completion of such assessments is provided in Section 2.
    [Show full text]
  • Coastal Erosion
    Guidance for Flood Risk Analysis and Mapping Coastal Erosion February 2018 Requirements for the Federal Emergency Management Agency (FEMA) Risk Mapping, Assessment, and Planning (Risk MAP) Program are specified separately by statute, regulation, or FEMA policy (primarily the Standards for Flood Risk Analysis and Mapping). This document provides guidance to support the requirements and recommends approaches for effective and efficient implementation. Alternate approaches that comply with all requirements are acceptable. For more information, please visit the FEMA Guidelines and Standards for Flood Risk Analysis and Mapping webpage (www.fema.gov/guidelines-and-standards-flood-risk-analysis-and- mapping). Copies of the Standards for Flood Risk Analysis and Mapping policy, related guidance, technical references, and other information about the guidelines and standards development process are all available here. You can also search directly by document title at www.fema.gov/library. Coastal Erosion February 2018 Guidance Document 40 Page i Document History Affected Section or Date Description Subsection Sections 2.1.1.1 and February Replaced Figures 2.1.1-1, 2.1.1-2, and 2.1.1-3 to contain 2.1.1.2 2018 correct reference to water level above which Primary Frontal Dune reservoir volume is determined. Coastal Erosion February 2018 Guidance Document 40 Page ii Table of Contents 1.0 Overview ............................................................................................................................ 1 1.1 Beach and Shoreline Settings ........................................................................................ 2 1.1.1 Sandy Beach Backed by High Sand Dune: ............................................................. 3 1.1.2 Sandy Beach Backed by Low Sand Dune Berm: .................................................... 4 1.1.3 Sandy Beach Backed by Shore Protection Structure: ............................................. 4 1.1.4 Mixed Grain Size Beach .........................................................................................
    [Show full text]
  • Oce1001, Introduction to Oceanography, Fall, 2005
    OCE1001, INTRODUCTION TO OCEANOGRAPHY, Fall, 2018 THIRD MID-TERM EXAMINATION Test No. 0001 Name: __________________________ READ THIS!!!! Put your name in the blank above. Read all questions carefully, and answer only the question which is asked. You may find the following equations useful: C = (gL/2) = 1.25 L (m/s) Where: C = speed of a wave and: g = gravity = 9.8 m/s2 C = (gD) = 3.1 D (m/s) L = wavelength of a wave C = 1.56 T (m/s) D = water depth C = L/T T = period of a wave PLEASE WRITE NEATLY. Matching: The Beaches Are Moving (8 pts) Do not put these on the scantron sheet. ____ neap ____ hook A. worldwide change in sea level. B. structure intended to widen a beach. ____ jetty ____ groin C. wall intended to keep a channel open. D. two high and two low tides per day. ____ eustatic E. current parallel to the shore caused by waves. ____ semidiurnal F. twice monthly tide that with a smaller than average range. ____ marine terrace G. bend in end of a spit caused by wave refraction. ____ longshore current H. region eroded flat by waves, elevated above sea level. ____ longitudinal I. disturbance of wave is parallel to wave movement Multiple Choice: (2 pts each) Put the answers to these questions on the scantron sheet. 1. In Figure 1, the features labeled 1, 2, 3, 4, and 5 are, respectively: a. spit, barrier island, baymouth bar, hook, tombolo. b. hook, spit, baymouth bar, barrier island, tombolo. c. tombolo, spit, baymouth bar, barrier island, hook.
    [Show full text]
  • Cave and Karst Inventory and Analysis
    Preliminary Report on the Caves and Karst of ROTA (LUTA), CNMI Thomas M. Keel1,2, John E. Mylroie1 & John W. Jenson2 i Technical Report No. 105 September 2004 Preliminary Report on the Caves and Karst of ROTA (LUTA), CNMI Thomas M. Keel1,2, John E. Mylroie1 & John W. Jenson2 1Department of Geosciences Mississippi State University Mississippi State, MS 39762 2Water and Environmental Research Institute of the Western Pacific University of Guam Mangilao, Guam 96923 Technical Report No. 105 Water & Environmental Research Institute of the Western Pacific University of Guam September, 2004 THE WATER RESOURCES RESEARCH INSTITUTE PROGRAM OF THE US GEOLOGICAL SURVEY, AWARD NO. 01HQGR0134, SUPPORTED THE WORK REPORTED HERE. THE CONTENT OF THIS REPORT DOES NOT NECESSARILY REFLECT THE VIEWS AND POLICIES OF THE DEPARTMENT OF THE INTERIOR, NOR DOES THE MENTION OF TRADE NAMES OR COMMERCIAL PRODUCTS CONSTITUTE THEIR ENDORSEMENT BY THE UNITED STATES GOVERNMENT. i ABSTRACT The island of Rota, Commonwealth of the Northern Mariana Islands, contains caves developed by most of the mechanisms previously documented for similar islands. Rota has a large number of flank margin caves, developed by mixing dissolution, under diffuse flow conditions, at the edge of the fresh water lens. Rota has a few caves developed along the contact with the underlying volcanic rock. Rota also has a few caves formed primarily by the physical erosion of ocean waves. Unlike the other islands in the Mariana Arc, Rota has a large number of mixing zone fracture caves. These mixing zone fracture caves apparently developed as fresh water discharging from the fractures mixesd with sea water to create zones of enhanced dissolution in each fracture.
    [Show full text]
  • Apostle Islands National Lakeshore Geologic Resources Inventory Report
    National Park Service U.S. Department of the Interior Natural Resource Stewardship and Science Apostle Islands National Lakeshore Geologic Resources Inventory Report Natural Resource Report NPS/NRSS/GRD/NRR—2015/972 ON THIS PAGE An opening in an ice-fringed sea cave reveals ice flows on Lake Superior. Photograph by Neil Howk (National Park Service) taken in winter 2008. ON THE COVER Wind and associated wave activity created a window in Devils Island Sandstone at Devils Island. Photograph by Trista L. Thornberry-Ehrlich (Colorado State University) taken in summer 2010. Apostle Islands National Lakeshore Geologic Resources Inventory Report Natural Resource Report NPS/NRSS/GRD/NRR—2015/972 Trista L. Thornberry-Ehrlich Colorado State University Research Associate National Park Service Geologic Resources Division Geologic Resources Inventory PO Box 25287 Denver, CO 80225 May 2015 U.S. Department of the Interior National Park Service Natural Resource Stewardship and Science Fort Collins, Colorado The National Park Service, Natural Resource Stewardship and Science office in Fort Collins, Colorado, publishes a range of reports that address natural resource topics. These reports are of interest and applicability to a broad audience in the National Park Service and others in natural resource management, including scientists, conservation and environmental constituencies, and the public. The Natural Resource Report Series is used to disseminate comprehensive information and analysis about natural resources and related topics concerning lands managed by the National Park Service. The series supports the advancement of science, informed decision-making, and the achievement of the National Park Service mission. The series also provides a forum for presenting more lengthy results that may not be accepted by publications with page limitations.
    [Show full text]
  • A Case Study of the Holly Beach Breakwater System Andrew Keane Woodroof Louisiana State University and Agricultural and Mechanical College, [email protected]
    Louisiana State University LSU Digital Commons LSU Master's Theses Graduate School 2012 Determining the performance of breakwaters during high energy events: a case study of the Holly Beach breakwater system Andrew Keane Woodroof Louisiana State University and Agricultural and Mechanical College, [email protected] Follow this and additional works at: https://digitalcommons.lsu.edu/gradschool_theses Part of the Civil and Environmental Engineering Commons Recommended Citation Woodroof, Andrew Keane, "Determining the performance of breakwaters during high energy events: a case study of the Holly Beach breakwater system" (2012). LSU Master's Theses. 2184. https://digitalcommons.lsu.edu/gradschool_theses/2184 This Thesis is brought to you for free and open access by the Graduate School at LSU Digital Commons. It has been accepted for inclusion in LSU Master's Theses by an authorized graduate school editor of LSU Digital Commons. For more information, please contact [email protected]. DETERMINING THE PERFORMANCE OF BREAKWATERS DURING HIGH ENERGY EVENTS: A CASE STUDY OF THE HOLLY BEACH BREAKWATER SYSTEM A Thesis Submitted to the Graduate Faculty of the Louisiana State University and Agricultural and Mechanical College In partial fulfillment of the Requirements for the degree of Master of Science in The Department of Civil and Environmental Engineering by Andrew K. Woodroof B.S., Louisiana State University, 2008 December 2012 ACKNOWLEDGEMENTS First and foremost, I would like to express my love and passion for the infinite beauty of south Louisiana. The vast expanse of wetlands, coastlines, and beaches in south Louisiana harbors people, industry, natural resources, recreation, and wildlife that is truly special. The intermingling of these components creates a multitude of unique cultures with such pride, passion, and zest for life that makes me thankful every day that I can enjoy the bounty of this region.
    [Show full text]
  • San Andrés, Old Providence and Santa Catalina (Caribbean Sea, Colombia)
    REEF ENVIRONMENTS AND GEOLOGY OF AN OCEANIC ARCHIPELAGO: SAN ANDRÉS, OLD PROVIDENCE AND SANTA CATALINA (CARIBBEAN SEA, COLOMBIA) with Field Guide JÓRN GEISTER Y JUAN MANUEL DÍAZ República de Colombia MINISTERIO DE MINAS Y ENERGÍA INSTITUTO COLOMBIANO DE GEOLOGÍA Y MINERÍA INGEOMINAS REEF ENVIRONMENTS AND GEOLOGY OF AN OCEANIC ARCHIPELAGO: SAN ANDRÉS, OLD PROVIDENCE AND SANTA. CATALINA (CARIBBEAN SEA, COLOMBIA with FIELD GUIDE) INGEOMINAS 2007 DIAGONAL 53 N°34-53 www.ingeominas.gov.co DIRECTOR GENERAL MARIO BALLESTEROS MEJÍA SECRETARIO GENERAL EDWIN GONZÁLEZ MORENO DIRECTOR SERVICIO GEOLÓGICO CÉSAR DAVID LÓPEZ ARENAS DIRECTOR SERVICIO MINERO (e) EDWARD ADAN FRANCO GAMBOA SUBDIRECTOR DE GEOLOGÍA BÁSICA ORLANDO NAVAS CAMACHO COORDINADORA GRUPO PARTICIPACIÓN CIUDADANA, ATENCIÓN AL CLIENTE Y COMUNICACIONES SANDRA ORTIZ ÁNGEL AUTORES: 315RN GEISTER Y JUAN MANUEL DÍAZ REVISIÓN EDITORIAL HUMBERTO GONZÁLEZ CARMEN ROSA CASTIBLANCO DISEÑO Y DIAGRAMACIÓN GUSTAVO VEJARANO MATIZ J SILVIA GUTIÉRREZ PORTADA: Foto: Estación en el mar Cl. San Andrés: Pared vertical de Bocatora Hole a -30 m. El coral Montastraea sp. adoptó una forma plana. Agosto de 1998. IMPRESIÓN IMPRENTA NACIONAL DE COLOMBIA CONTENT PREFACE 7 1. GENERAL BACKGROUND 8 2. STRUCTURAL SETTING AND REGIONAL GEOLOGY OF THE ARCHIPÉLAGO 9 2.1 Caribbean Piafe 9 2.2 Upper and Lower Nicaraguan Rises 9 2.3 Hess Escarpment and Colombia Basin 11 2.4 Islands and atolls of the Archipelago 12 3. CLIMATE AND OCEANOGRAPHY 14 4. GENERAL CHARACTERS OF WESTERN CARIBBEAN OCEANIC REEF COMPLEXE (fig. 7)
    [Show full text]
  • Geology of Saipan Mariana Islands Part 4
    Geology of Saipan Mariana Islands Part 4. Submarine Topography and Shoal- Water Ecology GEOLOGICAL SURVEY PROFESSIONAL PAPER 280-K Geology of Saipan Mariana Islands Part 4. Submarine Topography and Shoal- Water Ecology By PRESTON E. CLOUD, Jr. GEOLOGICAL SURVEY PROFESSIONAL PAPER 280-K Description and interpretation of the submarine topography and of the sediments^ biotas^ and morphology of the reef complex adjacent to a geologically diverse tropical island UNITED STATES GOVERNMENT PRINTING OFFICE, WASHINGTON : 1959 UNITED STATES DEPARTMENT OF THE INTERIOR FRED A. S EATON, Secretary GEOLOGICAL SURVEY Thomas B. Nolan, Director For sale by the Superintendent of Documents, U. S. Government Printing Office Washington 25, D. C. GEOLOGICAL SURVEY PROFESSIONAL PAPER 280 Geology of Saipan, Mariana Islands Part 1. General Geology A. General Geology By PRESTON E. CLOUD, Jr., ROBERT GEORGE SCHMIDT, and HAROLD W. BURKE Part 2. Petrology and Soils B. Petrology of the Volcanic Rocks By ROBERT GEORGE SCHMIDT C. Petrography of the Limestones By J. HARLAN JOHNSON D. Soils By RALPH J. McCRACKEN Part 3. Paleontology E. Calcareous Algae By J. HARLAN JOHNSON F. Difcoaster and Some Related Microfossils By M. N. BRAMLETTE G. Eocene Radiolaria By WILLIAM RIEDEL H. Smaller Foraminifera By RUTH TODD I. Larger Foraminifera By W. STORRS COLE J. Echinoids By C. WYTHE COOKE Part 4. Submarine Topography and Shoal-Water Ecology K. Submarine Topography and Shoal-Water Ecology By PRESTON E. CLOUD, Jr. CONTENTS Page Page Abstract_________________________________________ 361 Shoal-water and shoreline ecology and sediments—Con. Introduction. ______________________________________ 362 Habitat descriptions—Con. Purpose and scope of the work_____________________ 362 Organic reefs and reef benches______________ 383 Field methods and acknowledgments-_______________ 362 Minor reef structures______________________ 384 Systematic identifications and other research aid____ 363 Biotope X.
    [Show full text]