《航海学》课程教学资源（文献资料）Pub147bk SAILING DIRECTIONS（ENROUTE）CARIBBEAN SEA VOLUME 1，2009，ELEVENTH EDITION

Conversion TablesFeet to MetersFeet023456789101.221.522.132.442.740.000.300.610.911.833.35103.053.663.964.274.574.885.185.495.79206.106.406.717.017.327.627.928.238.538.84309.149.459.7510.0610.3610.6710.9711.2811.5811.894012.1912.5012.8013.1113.4114.0214.3314.6313.7214.935015.2416.1517.0717.3715.5415.8516.4616.7617.6817.986018.2918.5918.9019.2019.5119.8120.1220.4220.7321.037021.3422.2522.5523.4721.6421.9522.8623.1623.7724.088024.3825.3025.6026.5224.6924.9925.9126.2126.8227.139027.4327.7428.0428.3528.6528.9629.2629.5729.8730.17Fathoms to Meters02345009Fathoms16700.001.833.665.497.329.1410.9712.8016.4614.631031.0918.2920.1221.9523.7725.6027.4329.2632.9234.752036.5838.4040.2342.0643.8947.5549.3851.2153.0345.723054.8656.6958.5260.3562.1865.8469.4971.3264.0167.674073.1574.9876.8178.6480.4782.3084.1285.9587.7889.615091.4493.2795.1096.9398.75100.58102.41104.24106.07107.9060109.73111.56113.39115.21117.04118.87120.70122.53124.36126.1970128.02129.85131.67133.50135.33137.16138.99140.82142.65144.4780146.30148.13149.96151.79153.62155.45157.28159.11160.93162.7690164.59166.42168.25170.08171.91173.74175.56177.39179.22181.05Meters to Feet024589Meters136700.003.286.569.8413.1216.4019.6822.9726.2529.531032.8136.0939.3742.6545.9349.2152.4955.7759.0662.342065.6268.9072.1875.4678.7482.0285.3088.5891.8695.143098.42101.71104.99108.27111.55114.83118.11121.39124.67127.9540131.23134.51150.92154.20157.48137.80141.08144.36147.64160.7650164.04170.60177.16180.45187.01190.29167.32173.88183.73193.5760213.25196.85200.13203.41206.69209.97216.54219.82223.10226.3870229.66232.94236.22239.50242.78246.06249.34252.62255.90259.1980262.47265.75269.03272.31275.59278.87282.15285.43288.71291.9990295.28298.56301.84318.24321.52324.80305.12308.40311.68314.96MeterstoFathoms34502789Meters1602.734.370.000.551.091.642.193.283.834.92105.476.016.567.117.668.208.759.309.8410.392010.9411.4812.0312.5813.1213.6714.2214.7615.3115.863016.4016.9517.5018.0418.5919.1419.6820.2320.7821.334021.8722.4222.9723.5124.0625.1525.7026.2524.6126.795027.3427.8928.4328.9829.5330.0730.6231.1731.7132.266032.8133.3633.9034.4535.0035.5436.0936.6437.1837.737038.2838.8239.3739.9240.4641.0141.5642.1042.6543.208043.7444.2944.8445.3845.9346.4847.0347.5748.1248.679049.2149.7650.3150.8551.9552.4953.0453.5954.1351.40VIIIPub.147

VIII Pub. 147 Conversion Tables Feet to Meters Feet 0 1 2 3 4 5 6 7 8 9 0 0.00 0.30 0.61 0.91 1.22 1.52 1.83 2.13 2.44 2.74 10 3.05 3.35 3.66 3.96 4.27 4.57 4.88 5.18 5.49 5.79 20 6.10 6.40 6.71 7.01 7.32 7.62 7.92 8.23 8.53 8.84 30 9.14 9.45 9.75 10.06 10.36 10.67 10.97 11.28 11.58 11.89 40 12.19 12.50 12.80 13.11 13.41 13.72 14.02 14.33 14.63 14.93 50 15.24 15.54 15.85 16.15 16.46 16.76 17.07 17.37 17.68 17.98 60 18.29 18.59 18.90 19.20 19.51 19.81 20.12 20.42 20.73 21.03 70 21.34 21.64 21.95 22.25 22.55 22.86 23.16 23.47 23.77 24.08 80 24.38 24.69 24.99 25.30 25.60 25.91 26.21 26.52 26.82 27.13 90 27.43 27.74 28.04 28.35 28.65 28.96 29.26 29.57 29.87 30.17 Fathoms to Meters Fathoms 0 1 2 3 4 5 6 7 8 9 0 0.00 1.83 3.66 5.49 7.32 9.14 10.97 12.80 14.63 16.46 10 18.29 20.12 21.95 23.77 25.60 27.43 29.26 31.09 32.92 34.75 20 36.58 38.40 40.23 42.06 43.89 45.72 47.55 49.38 51.21 53.03 30 54.86 56.69 58.52 60.35 62.18 64.01 65.84 67.67 69.49 71.32 40 73.15 74.98 76.81 78.64 80.47 82.30 84.12 85.95 87.78 89.61 50 91.44 93.27 95.10 96.93 98.75 100.58 102.41 104.24 106.07 107.90 60 109.73 111.56 113.39 115.21 117.04 118.87 120.70 122.53 124.36 126.19 70 128.02 129.85 131.67 133.50 135.33 137.16 138.99 140.82 142.65 144.47 80 146.30 148.13 149.96 151.79 153.62 155.45 157.28 159.11 160.93 162.76 90 164.59 166.42 168.25 170.08 171.91 173.74 175.56 177.39 179.22 181.05 Meters to Feet Meters 0 1 2 3 4 5 6 7 8 9 0 0.00 3.28 6.56 9.84 13.12 16.40 19.68 22.97 26.25 29.53 10 32.81 36.09 39.37 42.65 45.93 49.21 52.49 55.77 59.06 62.34 20 65.62 68.90 72.18 75.46 78.74 82.02 85.30 88.58 91.86 95.14 30 98.42 101.71 104.99 108.27 111.55 114.83 118.11 121.39 124.67 127.95 40 131.23 134.51 137.80 141.08 144.36 147.64 150.92 154.20 157.48 160.76 50 164.04 167.32 170.60 173.88 177.16 180.45 183.73 187.01 190.29 193.57 60 196.85 200.13 203.41 206.69 209.97 213.25 216.54 219.82 223.10 226.38 70 229.66 232.94 236.22 239.50 242.78 246.06 249.34 252.62 255.90 259.19 80 262.47 265.75 269.03 272.31 275.59 278.87 282.15 285.43 288.71 291.99 90 295.28 298.56 301.84 305.12 308.40 311.68 314.96 318.24 321.52 324.80 Meters to Fathoms Meters 0 1 2 3 4 5 6 7 8 9 0 0.00 0.55 1.09 1.64 2.19 2.73 3.28 3.83 4.37 4.92 10 5.47 6.01 6.56 7.11 7.66 8.20 8.75 9.30 9.84 10.39 20 10.94 11.48 12.03 12.58 13.12 13.67 14.22 14.76 15.31 15.86 30 16.40 16.95 17.50 18.04 18.59 19.14 19.68 20.23 20.78 21.33 40 21.87 22.42 22.97 23.51 24.06 24.61 25.15 25.70 26.25 26.79 50 27.34 27.89 28.43 28.98 29.53 30.07 30.62 31.17 31.71 32.26 60 32.81 33.36 33.90 34.45 35.00 35.54 36.09 36.64 37.18 37.73 70 38.28 38.82 39.37 39.92 40.46 41.01 41.56 42.10 42.65 43.20 80 43.74 44.29 44.84 45.38 45.93 46.48 47.03 47.57 48.12 48.67 90 49.21 49.76 50.31 50.85 51.40 51.95 52.49 53.04 53.59 54.13

AbbreviationsThe following abbreviations may be used in thetext:Units°℃kmdegree(s) Centigradekilometer(s)cmcentimeter(s)mmeter(s)mbcu.m.cubic meter(s)millibarsdwtdeadweight tonsMHzmegahertzFEUforty-foot equivalent unitsmmmillimeter(s)grtgross registered tonsnrtnet registered tonskHzkilohertzTEUtwenty-foot equivalent unitsDirectionssNnorthsouthNNESSWnorthnortheastsouthsouthwestNESWnortheastsouthwestENEwSWeastnortheastwestsouthwestEWeastwestESEWNWeastsoutheastwestnorthwestSENWsoutheastnorthwestSSENNWsouthsoutheastnorthnorthwestVessel typesLASHLighter Aboard Shipro-roRoll-on Roll-offULCCLNGLiquified Natural GasUltra Large Crude CarrierLPGVLCCLiquified Petroleum GasVery Large Crude CarrierOBOOre/Bulk/OilTimeGMTETAestimated time of arrivalGreenwich Mean TimeETDUTCestimated time of departureCoordinated Universal TimeWater levelLWSMSLmean sea levellowwater springsHWhigh waterMHWNmean high water neapsLWMHWSlowwatermean high water springsMHWMLWNmean high watermean low water neapsMLWMLWSmean lowwatermean lowwater springsHWNHAThigh water neapshighest astronomical tideHWSLAThigh water springslowest astronomical tideLWNlowwater neapsCommunicationsMFD/Fdirection findermedium frequencyR/THFradiotelephonehigh frequencyGMDSSVHFGlobal Maritime Distress and Safety Systemvery high frequencyLFUHFlow frequencyultra high frequencyNavigationSPMLANBYLarge Automatic Navigation BuoySingle Point MooringNAVSATTSSNavigation SatelliteTraffic Separation SchemeODASVTCOcean Data Acquisition SystemVessel Traffic CenterSBMVTSVessel Traffic ServiceSingle Buoy MooringMiscellaneousCOLREGSCollision RegulationsIALANo./Nos.InternationalAssociationofLighthouseNumber/NumbersPAAuthoritiesPosition approximatePDIHOInternational Hydrographic OfficePosition doubtfulIMOPub.PublicationInternational Maritime Organizationloalength overallSt./Ste.Saint/SainteXIPub. 147

Pub. 147 XI Abbreviations The following abbreviations may be used in the text: Units °C degree(s) Centigrade km kilometer(s) cm centimeter(s) m meter(s) cu.m. cubic meter(s) mb millibars dwt deadweight tons MHz megahertz FEU forty-foot equivalent units mm millimeter(s) grt gross registered tons nrt net registered tons kHz kilohertz TEU twenty-foot equivalent units Directions N north S south NNE northnortheast SSW southsouthwest NE northeast SW southwest ENE eastnortheast WSW westsouthwest E east W west ESE eastsoutheast WNW westnorthwest SE southeast NW northwest SSE southsoutheast NNW northnorthwest Vessel types LASH Lighter Aboard Ship ro-ro Roll-on Roll-off LNG Liquified Natural Gas ULCC Ultra Large Crude Carrier LPG Liquified Petroleum Gas VLCC Very Large Crude Carrier OBO Ore/Bulk/Oil Time ETA estimated time of arrival GMT Greenwich Mean Time ETD estimated time of departure UTC Coordinated Universal Time Water level MSL mean sea level LWS low water springs HW high water MHWN mean high water neaps LW low water MHWS mean high water springs MHW mean high water MLWN mean low water neaps MLW mean low water MLWS mean low water springs HWN high water neaps HAT highest astronomical tide HWS high water springs LAT lowest astronomical tide LWN low water neaps Communications D/F direction finder MF medium frequency R/T radiotelephone HF high frequency GMDSS Global Maritime Distress and Safety System VHF very high frequency LF low frequency UHF ultra high frequency Navigation LANBY Large Automatic Navigation Buoy SPM Single Point Mooring NAVSAT Navigation Satellite TSS Traffic Separation Scheme ODAS Ocean Data Acquisition System VTC Vessel Traffic Center SBM Single Buoy Mooring VTS Vessel Traffic Service Miscellaneous COLREGS Collision Regulations IALA International Association of Lighthouse Authorities No./Nos. PA Number/Numbers Position approximate IHO International Hydrographic Office PD Position doubtful IMO International Maritime Organization Pub. Publication loa length overall St./Ste. Saint/Sainte

$435GENERALCHART26341NEBREAKERSNORTHRIOCKAPELIALOCRTONAITCHENSHOALSBCBREAKERS252842ARIADNABANKNUURAYEOGHARROURPLCHARCDAVIDSHEADBEHMUOALAND3220CHOBHEADSGREts-S.WBREAKERNORTHATLANTICOCEAN64*3064:88AAdditional chart coverage may be found in NGA/DLIS Catalog of Maps, Charts, and Related Products (Unlimited Distribution)SECTOR1-CHARTINFORMATIONPub.147

1 Pub. 147 1. Bermuda 1.0Additional chart coverage may be found in NGA/DLIS Catalog of Maps, Charts, and Related Products (Unlimited Distribution). SECTOR 1 — CHART INFORMATION

3SECTOR 1BERMUDAPlan.This sector describes Bermuda in general, then theNorthers are a lesser aberration within the general climatesea approaches and inner water passages.The description isproducing forces. They originate as an escape from the conti-NEto SW.nental United States of large cold air masses which in theimovement Sand SE,decrease from stormvelocities to strongGeneral Remarkswinds that tend to veer from W through NWto N.Land breez-es are negligible.1.1Bermuda(32°18'N.,64°45W.)liesabout565milesBermuda,situated somewhat above 32°N, lieoutside thear-ESE of Cape Hatteras, the nearest landfall, and in a mid-oceanea of direct NE trade winds influence and within the axis of theposition adjacent to direct routes from the United States Gulfgeneral clockwise circulation obtaining in the North Atlanticports to the Mediterranean and Northern Europe, and to directOcean,with theconsequencethatthe wind direction differs ba-routes from United States East Coast ports to South America.sically from that in the trade wind belt to the S.Of the300 emergent above-waterfeaturesof this grouponWindfromtheSWpredominatesbetweenMarchandAu-the Bermuda Great Reef, about half are only above-watergustwhilewinds from the W and NWprevail between Decemrocks.About 20of the remaining 150 islands are inhabited andber and February.Fall winds are variable.Average windthe seven largest are connected by bridge and causeway to Ber-velocity is between a Force 3 and 4, somewhat less in summermuda (Hamilton).than in winter.Bermuda is the largest, followed by Saint George's IslandWith the breakdown of the Azores high in September andand Saint David's Island to the NE, and Somerset Island, Wat-October and thereafter with thepassage of extra tropical cyford Island, Boaz Island, and Ireland Island to the SWclones moving E from the U.S.mainland, gale winds from theThe islands have a total surface area of almost 21 squareSW through NW occur with increased frequency.Tropical cymiles, and extend almost 14 miles in length. Saint George'sclones originating during this period and developing intoHarbour and Saint George lie in the N portion of the chain.storms commonlypass Wof theislands.During the summer, gale force winds are infrequent andGreat Sound and Hamilton, Ireland Island Dockyard, and PortRoyal Bay lie in the S part.blowfrom SE throughNEonly when in association with hurri-Winds-Weather.Bermuda and theBahamas,while somecanes. Many of these latter pass near the islands but only about725 miles apart, are subject in large measure to the same natu-once a year on the average pass close enough to produce local-ral forces that produce the general climate and current condi-ly experienced hurricane winds.tions within the SW portion of theNorthAtlantic Ocean.TheBermuda has a maritime climate that is rather sultry and gen-consequences of these conditions differ primarily in degree inerally quite mild.The averagehigh temperature is 30°C bethat Bermuda is an oceanic island while the Bahamas tend totween July and Septemberand the averagelow seldomfallsbelow 14°C at other times of the year. October is the wettestbemorecoastal islands.The principal sources of climate and current conditions af-month, while April is the driest. Fog is rare and visibility isfectingBermuda andtheBahamas are more orless constantcommonly impaired only during heavy rainfall.TidesCurrents.Ocean currents affecting Bermuda andNE trade winds.As thesepartake of the general North Atlanticclockwise movement circulating around the semi-permanentthe Bahamas are almost entirely dependent on prevailing windsareas or high barometric pressure alternating between thewhich.in general causeaclockwiseflow around theNorthAt-Azores and Bermuda.lantic basin.The local effects of these currents are dependentAs this high fluctuates seasonally in position and intensityupon the position of the observer within the general flow.so the N limit of the trade winds varies during the year. In win-Tidal currents are, with exception, negligible in the open seater it lies in about 25°N, while in summer it shifts to aboutand, while generally weak, become matters of concern only30°N.within confined channels leading through reefs and the like. InThe fluctuating N limit of the NE trade winds thus falls ap-general, flood currents set directly onto reefs while ebb cur-rents set directly off.proximately between Bermuda and the Bahamas, and therebybecomesa contributing factorto differences inlocal wind andTides forBermuda and theBahamas are mixed.There arecurrentconditionstwo daily highs and lows of near equal height when the moonThe West Indian hurricane, the principal aberration withinis near the equatorThen two daily highs and lows with increasing diurnal ine-the general forces governing the production of climate condi-tions, develops more often than not well to the E and in the lat-quality as the moon declination increases, then essentially onlyitudes of the lowbarometric pressure doldrums.one daily high and low when the moon declination maximizes.It travels slowlyW within the belt of the NEtrade winds and,The mean sea level is affected by the wind, and depths maywith an increase in speed generally recurves NE in about 30°N.be0.3to0.4mlessthancharted.The season of its occurrence is late May to early DecemberDepthsLimitations.Bermuda Great Reef is the nameand the prevalence of its track is such that it affects the Baha-given to the extensive reef system on which Bermuda is locat-mas considerably more than Bermuda.ed. The outer dangers and approach channels through the reefPub.147

3 Pub. 147 SECTOR 1 BERMUDA 1.0 Plan.—This sector describes Bermuda in general, then the sea approaches and inner water passages. The description is NE to SW. General Remarks 1.1 Bermuda (32°18'N., 64°45'W.) lies about 565 miles ESE of Cape Hatteras, the nearest landfall, and in a mid-ocean position adjacent to direct routes from the United States Gulf ports to the Mediterranean and Northern Europe, and to direct routes from United States East Coast ports to South America. 1.1 Of the 300 emergent above-water features of this group on the Bermuda Great Reef, about half are only above-water rocks. About 20 of the remaining 150 islands are inhabited and the seven largest are connected by bridge and causeway to Ber￾muda (Hamilton). 1.1 Bermuda is the largest, followed by Saint George’s Island and Saint David’s Island to the NE, and Somerset Island, Wat￾ford Island, Boaz Island, and Ireland Island to the SW. 1.1 The islands have a total surface area of almost 21 square miles, and extend almost 14 miles in length. Saint George’s Harbour and Saint George lie in the N portion of the chain. Great Sound and Hamilton, Ireland Island Dockyard, and Port Royal Bay lie in the S part. 1.1 Winds—Weather.—Bermuda and the Bahamas, while some 725 miles apart, are subject in large measure to the same natu￾ral forces that produce the general climate and current condi￾tions within the SW portion of the North Atlantic Ocean. The consequences of these conditions differ primarily in degree in that Bermuda is an oceanic island while the Bahamas tend to be more coastal islands. 1.1 The principal sources of climate and current conditions af￾fecting Bermuda and the Bahamas are more or less constant NE trade winds. As these partake of the general North Atlantic clockwise movement circulating around the semi-permanent areas or high barometric pressure alternating between the Azores and Bermuda. 1.1 As this high fluctuates seasonally in position and intensity, so the N limit of the trade winds varies during the year. In win￾ter it lies in about 25°N, while in summer it shifts to about 30°N. 1.1 The fluctuating N limit of the NE trade winds thus falls ap￾proximately between Bermuda and the Bahamas, and thereby becomes a contributing factor to differences in local wind and current conditions. 1.1 The West Indian hurricane, the principal aberration within the general forces governing the production of climate condi￾tions, develops more often than not well to the E and in the lat￾itudes of the low barometric pressure doldrums. 1.1 It travels slowly W within the belt of the NE trade winds and, with an increase in speed generally recurves NE in about 30°N. 1.1 The season of its occurrence is late May to early December and the prevalence of its track is such that it affects the Baha￾mas considerably more than Bermuda. 1.1 Northers are a lesser aberration within the general climate producing forces. They originate as an escape from the conti￾nental United States of large cold air masses which in their movement S and SE, decrease from storm velocities to strong winds that tend to veer from W through NW to N. Land breez￾es are negligible. 1.1 Bermuda, situated somewhat above 32°N, lie outside the ar￾ea of direct NE trade winds influence and within the axis of the general clockwise circulation obtaining in the North Atlantic Ocean, with the consequence that the wind direction differs ba￾sically from that in the trade wind belt to the S. 1.1 Wind from the SW predominates between March and Au￾gust while winds from the W and NW prevail between Decem￾ber and February. Fall winds are variable. Average wind velocity is between a Force 3 and 4, somewhat less in summer than in winter. 1.1 With the breakdown of the Azores high in September and October and thereafter with the passage of extra tropical cy￾clones moving E from the U.S. mainland, gale winds from the SW through NW occur with increased frequency. Tropical cy￾clones originating during this period and developing into storms commonly pass W of the islands. 1.1 During the summer, gale force winds are infrequent and blow from SE through NE only when in association with hurri￾canes. Many of these latter pass near the islands but only about once a year on the average pass close enough to produce local￾ly experienced hurricane winds. 1.1 Bermuda has a maritime climate that is rather sultry and gen￾erally quite mild. The average high temperature is 30°C be￾tween July and September and the average low seldom falls below 14°C at other times of the year. October is the wettest month, while April is the driest. Fog is rare and visibility is commonly impaired only during heavy rainfall. 1.1 Tides—Currents.—Ocean currents affecting Bermuda and the Bahamas are almost entirely dependent on prevailing winds which, in general cause a clockwise flow around the North At￾lantic basin. The local effects of these currents are dependent upon the position of the observer within the general flow. 1.1 Tidal currents are, with exception, negligible in the open sea and, while generally weak, become matters of concern only within confined channels leading through reefs and the like. In general, flood currents set directly onto reefs while ebb cur￾rents set directly off. 1.1 Tides for Bermuda and the Bahamas are mixed. There are two daily highs and lows of near equal height when the moon is near the equator. 1.1 Then two daily highs and lows with increasing diurnal ine￾quality as the moon declination increases, then essentially only one daily high and low when the moon declination maximizes. 1.1 The mean sea level is affected by the wind, and depths may be 0.3 to 0.4m less than charted. 1.1 Depths—Limitations.—Bermuda Great Reef is the name given to the extensive reef system on which Bermuda is locat￾ed. The outer dangers and approach channels through the reef

Sector1.Bermuda4will be described later in the text.3.Nature andquantityof anydangerous or toxiccargoAspect.Saint George's Harbour has been reported to be4.GRT, length, and draft.radar conspicuous.FollyTowers are conspicuous on the slope5.Any restriction on ability to maneuver.ofTownHill.GibbsHillliesneartheSpartofBermuda'sSex-6.Anydefectstonavigational equipment.and whethertremity.Wreck Hill, a conical hill near the W extremity of thelarge scale charts of Bermuda are available.same island, may be useful if approached from the N or S.All vessels must remain at least 20 miles offshore until in-TownHill(32°19'N.,64°44W.),located intheNportionofstructed to approach thepilotboardinggroundBermuda, is the highest point in the group.All vessels should maintain a continuous listening watch onThe larger islands are somewhat wooded and generally char-VHF channel 12 while transiting the buoyed channels andacterized by round hills which seldom rise above a height ofshould obtain permission before transiting The Narrows and61m.Town Cut Channel.Pilotage.Pilotage is compulsory except for naval vesselsVessels intending to enter the area to be avoided should conand yachts and is available in daylight only. The boardingtact Bermuda Harbour Radio and state nationality,positionground is located 2miles ENE of SaintDavid'sHead, with thecourse,speed, destination,type of cargo,and draft.VesselsE tip of the island bearing 240o.Vessels with a draft in excessshould maintain continuous listening watch on VHF channel16.of1Om and all othervesselscarryinghazardous cargo,notVessels passing within30 miles of Bermuda are requested toholding appropriate approachcharts,orwithlimited maneuver-ability are boarded 3miles E of Saint David's Head.contact Bermuda Harbour Radio on VHF channel 16 initially,The pilot station (call sign:Bermuda Pilots)may be contact-stating:Type of vessel.ed onVHFchannels12and16.1.Regulations.An IMO-established Area tobeAvoided has2.Nationalitybeen established in the waters surrounding Bermuda, and may3.Laden or inballast (tankers only)best be seen on the chart.Because of the great danger of4.Position, course, and speed.stranding on the extensive reefs to the W, N, and NE of the is-Any course changes within 30 nautical miles of Ber-5.landsand.forreasonsofenvironmentalprotectionallvesselsmuda.carrying cargoes of oil or hazardous materials and all otherBermuda Harbour Radio (call sign:Bermuda Harbour)mayvessels ofmorethan1,oo0grt, whetherornotboundforBer-be contactedon 2182kHz,2582kHz,andVHF channels 1012,16,27,and 68, and is equipped with radar.AremoteVHFmudaports.shouldremainoutsideof theareaAvoluntaryVesselTrafficManagementService(VTMS)isstation is located at Gibbs Head Light.ineffectforvesselspassingwithin30milesofBermudaandisAnchorage.It has been reported that good hurricane an-mandatory for vessels sailingforports in Bermuda or intendingchoragesforsmallcraftmaybefoundinSmithsSound,Greatto navigate within the Area to be Avoided.Bay,Polly's Bay,Riddell's Bay, and Bermuda Freeport.The following is a summary of regulations dealing with ves-Anchorage while awaiting the pilot is available in Five Fath-sel movements,berthing,and the duties of masters.TrafficomHole.butthelocalauthoritiesshouldbeconsultedbeforecontrol is exercised through Bermuda Harbour Radio.attemptingtoanchor here.1. Ocean-going vessels have absolute right of way overDirections.The sea approaches to Bermuda are generallylocal craft.in deep water and free of dangers,exceptfor two off-lying sea-2.Vessels shall proceed at moderate speed.mounts to theSW and the sunken dangers of Bermuda Great3.Thedischarge or dumping offuel oil,ballast,rubbishReef.Intimes ofpoorvisibility,theonly safeapproachtoBermu-oranyothermaterialsisprohibited.Thefollowingregulations governMain Ship Channel,Fiveda is from the SE.It is recommended that vessels scheduleFathom Hole, The Narrows, Murray's Anchorage, and Souththeir arrival in an area well to the NE of the islands during day-Channel to Grassy Bay. Additional regulations will be cited inlight hours, since the dredged entrance passages are withoutthe text where appropriate:lighted ranges.1.An inbound vessel has right-of-way,and should flyEntry at night is permitted only in an emergency.It is recom-her national colors while navigating these channels to claimmended that vessels approaching from the SW adjust theirprioritycourse to stand well off the SE side of the islands and remain in2.Anoutboundvessel shouldkeepoff andawayfromdeep water until the E extremity of the islands can be roundedthe channel at safe and sufficient distance, until the inboundandafinal approachmade in safetyfrom seawardIt is recommended thatvessels approaching from the Wandvessel has cleared thechannel.3.No vessel should anchor in the channels, except in anNW remain indeep water well totheNof theBermuda Greatemergency or through stress of weather and should clear theReef, and adjust their courses in order to safely clear the E ex-channel as soon as possible.tremity of the reef and arrive at a position about 10 miles NE ofVessels heading for Bermuda ports and making a scheduledthe harbor entranceA final approach may then be made with Saint David's Is-callmustradiotheirETAatFiveFathomHole18to24hoursin advance, confirming at least 3hours prior to arrival.Vesselsland Light bearing more than 226° to clear all known dangers.making an unscheduled call must contact Bermuda HarbourAradiobeacon andDGPS stationattheNEendof BermudaRadio at least 24 hours in advance of arrival, stating:near St.David's Head may be of assistance during an ap-1.Purpose of call and local agent.proach.2.ETAatFiveFathomHole.It is recommended that vesselsproceed with caution whenPub. 147

4 Sector 1. Bermuda Pub. 147 will be described later in the text. Aspect.—Saint George’s Harbour has been reported to be radar conspicuous. Folly Towers are conspicuous on the slope of Town Hill. Gibbs Hill lies near the S part of Bermuda’s S ex￾tremity. Wreck Hill, a conical hill near the W extremity of the same island, may be useful if approached from the N or S. 1.1 Town Hill (32°19'N., 64°44'W.), located in the N portion of Bermuda, is the highest point in the group. 1.1 The larger islands are somewhat wooded and generally char￾acterized by round hills which seldom rise above a height of 61m. 1.1 Pilotage.—Pilotage is compulsory except for naval vessels and yachts and is available in daylight only. The boarding ground is located 2 miles ENE of Saint David’s Head, with the E tip of the island bearing 240°. Vessels with a draft in excess of 10m and all other vessels carrying hazardous cargo, not holding appropriate approach charts, or with limited maneuver￾ability are boarded 3 miles E of Saint David’s Head. 1.1 The pilot station (call sign: Bermuda Pilots) may be contact￾ed on VHF channels 12 and 16. 1.1 Regulations.—An IMO-established Area to be Avoided has been established in the waters surrounding Bermuda, and may best be seen on the chart. Because of the great danger of stranding on the extensive reefs to the W, N, and NE of the is￾lands and, for reasons of environmental protection, all vessels carrying cargoes of oil or hazardous materials and all other vessels of more than 1,000 grt, whether or not bound for Ber￾muda ports, should remain outside of the area. 1.1 A voluntary Vessel Traffic Management Service (VTMS) is in effect for vessels passing within 30 miles of Bermuda and is mandatory for vessels sailing for ports in Bermuda or intending to navigate within the Area to be Avoided. 1.1 The following is a summary of regulations dealing with ves￾sel movements, berthing, and the duties of masters. Traffic control is exercised through Bermuda Harbour Radio. 1. Ocean-going vessels have absolute right of way over local craft. 2. Vessels shall proceed at moderate speed. 3. The discharge or dumping of fuel oil, ballast, rubbish or any other materials is prohibited. 1.1 The following regulations govern Main Ship Channel, Five Fathom Hole, The Narrows, Murray’s Anchorage, and South Channel to Grassy Bay. Additional regulations will be cited in the text where appropriate: 1. An inbound vessel has right-of-way, and should fly her national colors while navigating these channels to claim priority. 2. An outbound vessel should keep off and away from the channel at safe and sufficient distance, until the inbound vessel has cleared the channel. 3. No vessel should anchor in the channels, except in an emergency or through stress of weather and should clear the channel as soon as possible. 1.1 Vessels heading for Bermuda ports and making a scheduled call must radio their ETA at Five Fathom Hole 18 to 24 hours in advance, confirming at least 3 hours prior to arrival. Vessels making an unscheduled call must contact Bermuda Harbour Radio at least 24 hours in advance of arrival, stating: 1. Purpose of call and local agent. 2. ETA at Five Fathom Hole. 3. Nature and quantity of any dangerous or toxic cargo. 4. GRT, length, and draft. 5. Any restriction on ability to maneuver. 6. Any defects to navigational equipment, and whether large scale charts of Bermuda are available. 1.1 All vessels must remain at least 20 miles offshore until in￾structed to approach the pilot boarding ground. 1.1 All vessels should maintain a continuous listening watch on VHF channel 12 while transiting the buoyed channels and should obtain permission before transiting The Narrows and Town Cut Channel. 1.1 Vessels intending to enter the area to be avoided should con￾tact Bermuda Harbour Radio and state nationality, position, course, speed, destination, type of cargo, and draft. Vessels should maintain continuous listening watch on VHF channel 16. 1.1 Vessels passing within 30 miles of Bermuda are requested to contact Bermuda Harbour Radio on VHF channel 16 initially, stating: 1. Type of vessel. 2. Nationality. 3. Laden or in ballast (tankers only). 4. Position, course, and speed. 5. Any course changes within 30 nautical miles of Ber￾muda. 1.1 Bermuda Harbour Radio (call sign: Bermuda Harbour) may be contacted on 2182 kHz, 2582 kHz, and VHF channels 10, 12, 16, 27, and 68, and is equipped with radar. A remote VHF station is located at Gibbs Head Light. 1.1 Anchorage.—It has been reported that good hurricane an￾chorages for small craft may be found in Smiths Sound, Great Bay, Polly’s Bay, Riddell’s Bay, and Bermuda Freeport. 1.1 Anchorage while awaiting the pilot is available in Five Fath￾om Hole, but the local authorities should be consulted before attempting to anchor here. 1.1 Directions.—The sea approaches to Bermuda are generally in deep water and free of dangers, except for two off-lying sea￾mounts to the SW and the sunken dangers of Bermuda Great Reef. 1.1 In times of poor visibility, the only safe approach to Bermu￾da is from the SE. It is recommended that vessels schedule their arrival in an area well to the NE of the islands during day￾light hours, since the dredged entrance passages are without lighted ranges. 1.1 Entry at night is permitted only in an emergency. It is recom￾mended that vessels approaching from the SW adjust their course to stand well off the SE side of the islands and remain in deep water until the E extremity of the islands can be rounded and a final approach made in safety from seaward. 1.1 It is recommended that vessels approaching from the W and NW remain in deep water well to the N of the Bermuda Great Reef, and adjust their courses in order to safely clear the E ex￾tremity of the reef and arrive at a position about 10 miles NE of the harbor entrance. 1.1 A final approach may then be made with Saint David’s Is￾land Light bearing more than 226° to clear all known dangers. 1.1 A radiobeacon and DGPS station at the NE end of Bermuda near St. David’s Head may be of assistance during an ap￾proach. 1.1 It is recommended that vessels proceed with caution when