Evergreen, 1943
WAGL-295; WAGO-295; WLB-295; WMEC-295
Call Sign: NRXD
Builder: Marine Iron & Shipbuilding
Corporation, Duluth, MN
Builder's Number: bn CG-102
Cost: $871,946
Length: 180' oa
Beam: 37' mb
Draft: 12' max (1945); 14' 7"
(1966)
Displacement: 935 fl (1945); 1,026 fl
(1966); 700 light (1966)
Keel Laid: 15 April 1942
Launched: 3 July 1942
Commissioned: 30 April 1943
Decommissioned: 13 June 1990
Status: Transferred to US Navy and sunk as
a target on 25 November 1992.
Propulsion: 1 electric motor
connected to 2 Westinghouse generators driven by 2 Cooper-Bessemer-type GND-8,
4-cycle diesels; single screw
Top speed: 13.0 kts sustained (1945); 11.9
kts sustained (1966)
Economic speed: 8.3 kts (1945); 8.5 kts
(1966)
Complement: 6 Officers, 74 men (1945); 4
officers, 2 warrants, 47 men (1966)
Electronics:
Radar: Bk (1943);
SLa (1945)
Sonar: WEA-2 (1945)
Armament: 1-3"/50 (single), 2-20mm/80
(single), 2 depth charge tracks, 2 Mousetraps, 4 Y-guns (1945); None (1966)
Class History:
When the US Coast Guard
absorbed the Bureau of Lighthouses on 1 July 1939, Juniper,
a 177-foot all welded steel buoy tender, was under construction and plans
for a successor were on the drawing board. Plans initiated by the Bureau of
Lighthouses called for the construction of several identical buoy tenders to
replace existing coastal buoy tenders. The preliminary designs generated by
the Bureau were for a vessel similar to Juniper.
When the Aids to Navigation (ATON) system transferred to Coast Guard
control, USCG planners reviewed the preliminary plans for the new class of
buoy tenders and modified them to meet the service’s multi-mission role. To
be an effective part of the Coast Guard, the new buoy tenders needed to be
multi-purpose platforms. They had to be capable of conducting Search and
Rescue (SAR) and Law Enforcement (LE) missions, as well as their primary
mission tending ATON. On 20 January 1941 the US Coast Guard contracted Marine
Iron and Shipbuilding Company of
Duluth
,
Minnesota
to build the design based on Juniper and
modified to meet the service’s requirements. On 31 March 1941 Marine Iron
and Shipbuilding laid the keel for the first vessel of the new buoy tender
class. The new vessel measured 180 feet overall and had a beam of 37 feet at
the extreme. She had a displacement of 935 tons and drew 12 feet. The new
design was similar to Juniper in
appearance but did exhibit some important differences. Gone was the turtle
back forecastle. A notched forefoot, ice-belt at the waterline, and reinforced
bow gave the vessel icebreaking capabilities. Extending the superstructure to
the ship’s sides increased interior volume above the main deck. A single
propeller, turned by an electric motor powered by twin diesel generators,
replaced the twin-screw arrangement. The 30,000-gallon fuel capacity gave the
new design a range of 12,000 miles at a 12-knot cruising speed; at 8.3 knots
the cruising range increased to 17,000 miles. Finer lines at the bow and stern
increased the new tender’s sea keeping ability in rough weather; an increase
in draft also promoted seaworthiness. Numerous minor alterations increased the
vessel’s utility as a SAR platform while deck-mounted guns and depth charge
racks supported military duties. Marine Iron and Shipbuilding launched
the prototype vessel on 25 November 1941, even as three more took shape.
Preparations also went forward to begin a fifth vessel. By the time they
commissioned the first 180, Cactus,
on 1 September 1942 twelve vessels were under construction at the Marine
Iron shipyard and at the Zenith Dredge Company shipyard, also in
Duluth
. The initial designation for the new buoy tenders was WAGL, which was a US
Navy designation denoting an auxiliary vessel, lighthouse tender. The
designation changed from WAGL to WLB in 1965. A few of the 180s have been
designated as other types of vessels over the years; three became WMECs
(medium endurance cutters), one of those, Evergreen,
was a WAGO (oceanographic research vessel) before it became a WMEC. Gentian
was a WMEC for a time and was then designated a WIX (Training Cutter) in
1999. Though designations have changed over time, each vessel’s hull number
has remained the same since commissioning.
DIFFERENCES WITHIN THE 180'
CLASS
Six “B” or
Mesquite
class tenders followed the initial production run of thirteen vessels in the
“A’ or Cactus-class. The first Mesquite-class
tender hit the water on 14 November 1942. Marine Iron and Shipbuilding built
all except one of the Mesquite-class.
The USCG built the lone exception, Ironwood,
at the service’s shipyard in Curtis Bay, Maryland. Twenty Iris
or “C” class vessels followed the Mesquite-class
tenders. The first launch of an Iris class
vessel took place on 18 June 1943, and the final addition to the class slipped
off the ways on 18 May 1944.
Differences among the three classes were minimal. Their basic dimensions,
length and beam were the same and draft varied based on loading. All were
built of welded steel along the same framing pattern and with very similar
internal and external layouts. All three classes could steam 8,000 miles at 13
knots, 12,000 miles at 12 knots, and 17,000 miles at 8.3 knots; though the
“B” and “C” class vessels had engines with 20 percent more power than
the “A” class. The “A” class vessels could carry the most fuel with a
tank capacity of 30,000 gallons. The “C” class carried 29,335 gallons and
the “B” class about 700 gallons less. The layout of the Commanding
Officer’s cabin and the radio room was slightly different in the “A”
class vessels. The bridge wing door on the “B” and “C” vessels opened
to the side while the doors on the “A” vessels opened forward. The cargo
holds as originally laid out in the “C” were larger, by a nominal amount,
than those in the other vessels. To hoist buoys and cargo, the “A” vessels
carried an A-frame structure that straddled the superstructure and supported
the cargo boom. The other two classes were fitted with power vangs that
attached to the bridge wings and manipulated the cargo boom. The “A”
vessels were originally fitted with manilla line as part of the cargo handling
system while the second and third generation vessels used wire rope. From the
outside, other than the A-frame used in the first production run, the three
classes were almost indistinguishable. Over the years their internal
differences and variation in equipment were minimized by successive overhauls
and improvements. Moreover, it does not appear that any one of the three
classes was superior to the other two in the eyes of the US Coast Guard
administration or the men who manned the buoy tender fleet. Tenders from each
of the three classes remained in use past the turn of the 21st
century. It usually took from two to four months between the time shipyard
workers laid a keel and the day the vessel slipped off the ways. Once
launched, however, the tenders were far from ready for service. The practice
was to build the superstructure, finish the interior, and complete the
machinery installation while the vessel was floating. Hence, on launch day the
tenders were little more than finished hulls. As the shipyard workers neared
the end of the building process, the Coast Guard would begin assigning
officers and men to the vessels. Once each vessel was complete and ready to
enter active service, the US
Coast Guard commissioned her as part of the fleet. Often the commissioning
ceremonies took place after the tender had departed from
Duluth
and arrived at an initial duty station. For the 180s as a whole, it took an
average period of 308 days to go from the beginning of construction to
commissioning. Divided according to sub-class, the elapsed time from keel
laying to commissioning averaged 360 days for the Cactus-class;
323 days for the Mesquite-class;
and 269 days for the Iris-class.
The building process averaged 192,018 man-hours of labor per vessel. In
keeping with the Lighthouse Service practice of naming tenders after foliage,
all of the 180s were named after trees, shrubs, or flowers.
THE 180s GO TO WAR
Though the design was
completed before
US
entry into World War II, several of the vessels were already under
construction when the Japanese attacked
Pearl Harbor
; the tenders were very much a product of the war. The number of tenders built
and the rapidity with which the shipyards turned them out is indicative of
this nation’s massive industrial output during the war years. Before the
war, no group of thirty-nine steel ships had been produced in three years.
Yet, during the period 1941-1944 the entire production run of the class went
from blueprints to completed ships during a time when the
United States
was producing thousands of other ships at yards around the country. With the
lone exception of the tender built at the Coast Guard Yard at
Curtis
Bay
in
Baltimore
,
Maryland
, two commercial shipyards in
Duluth
,
Minnesota
built all the 180s. To achieve this level of production, even as much of the
prewar workforce volunteered or was drafted for military service, the
shipyards turned to a new source of labor. The Duluth
shipyards, like industrial operations nationwide, began to recruit women. As
Duluth
’s men filed off to war as soldiers, sailors, airmen, and marines, Duluth
’s women filed into the shipyards to become welders, machinists, and
electricians. By the end of the war
Duluth
’s “welderettes” numbered 3,500 of the 14,000 persons laboring through
the cold
Minnesota
winters to turn out ships for the war effort. The total number of civilian
shipyard workers employed by Marine Iron and Zenith Dredge peaked at 1,200 and
1,500 respectively. Thus, the US Coast Guard 180s are historically significant
not only as the first class of modern buoy tenders and as part of an
unprecedented military build-up but also as milestones in labor history
American women helped build the 180s during the period when women first began
to enter the industrial workforce. Even after commissioning most vessels did
not immediately enter regular service. Instead the tenders embarked on
shakedown cruises to test the various mechanical, electrical, and hydraulic
systems. The shakedown cruises also offered an opportunity for crew
orientation and training. It was rare that the shakedown cruise did not reveal
some defective system and most vessels returned to a shipyard to have any
glitches repaired. Occasionally the return to the shipyard meant going back to
Zenith Dredge or Marine Iron and Shipbuilding in
Duluth
. Before deployment to their duty stations, other vessels went to the USCG
yard at
Curtis
Bay
which provided an opportunity to outfit the vessels with any additional
equipment or to carry out any modifications needed at the vessels’ new duty
stations.
The work done by the men
and women of Duluth
produced finished buoy tenders, but not warships. It would be up to military
technicians to make the 180s combat-ready. Many of the buoy tenders were
destined to operate far from home in a variety of war zones as part of a navy
locked in a two-ocean war. To defend themselves against air attack, the
tenders were fitted with 20mm guns, usually four of them, mounted high on the
superstructure and on the aft portions of the main deck. Armorers outfitted
the 180s with a single 3" cannon mounted aft of the stack to defend
against aircraft and engage small surface or shore targets. They installed
depth charge racks as well as K- and V-type launchers on the stern to deploy
depth charges in case the vessels ever encountered enemy submarines. Some 180s
were also fitted with a device known as a 'mousetrap'. This weapon system
launched rocket-propelled explosive charges that would explode on contact
with a submarine’s hull. The mousetrap system was generally mounted on the
bow so the launchers could fire ahead of the vessel. Besides the heavier
weapons systems, the tenders carried assorted small arms. Technicians
installed radar and sonar systems to help the 180s find targets or avoid enemy
units. The US Coast Guard shipyard at Curtis Bay, Maryland carried out the
bulk of the work that prepared the buoy tenders for duty overseas.
Buoy tenders from the 180
classes operating in the Atlantic Theater saw service from the frigid waters
around Greenland to the tropical coast of
Brazil
. They tended buoys, broke ice, and provided assistance to vessels in need.
They also served as the armed escorts for merchant convoys, hunted U-boats,
and carried supplies to far-flung installations. The 180s were not limited to
coastal duty. Several vessels in the class were dispatched thousands of miles
out into the Atlantic to collect important meteorological data that allowed
military planners to schedule and route aircraft flights to
Europe
. In the Pacific Theater the 180s covered thousands of miles of open
ocean in pursuit of their varied duties. Several vessels worked to establish
Long-Range Aids-to-Navigation (LORAN) station chains in the South Pacific
while others conducted similar operations in the
Bering Sea
. Navy commanders regularly dispatched 180s to carry supplies and personnel
between installations throughout the theatre. The lift capacity and towing
features of the tenders helped them carry out salvage work. The 180s fought
shipboard fires and rescued Allied personnel from damaged vessels. Besides
this range of duties, all the tenders fulfilled their design function on a
regular basis. They serviced ATON along the West Coast, in the waters of the
Bering Sea
, and across the Pacific. They also set and serviced moorings and mooring
buoys for naval and merchant vessels throughout the war zone. Their ATON work
was especially important since many of the areas in which
U.S.
forces operated were very poorly charted or uncharted altogether. The work
done by the 180s allowed thousands of Allied ships to operate along routes and
in harbors far removed from pre-war shipping lanes. The buoy tenders never
received the acclaim afforded larger warships, but their efforts did not go
unnoticed. In the words of a contemporary observer:
As
the battleships and assault troop and cargo ships do the heavy work, the Coast
Guard tenders scurry alongside, paving the broken way for the miracle of
supply which follows. They'll lay cables in the ocean bed, fight fires and
perform rescue and salvage chores. A tender may moor an anchor for battleships
or tow a Navy seaplane caught on a reef-it's all in a day's work.
None of the 180s were lost
to enemy action during the war. Those in the Atlantic Theater operated under
the threat of German U-boats, but the few encounters saw the cutters dropping
depth charges on the suspected positions of submerged U-boats and receiving no
return fire. A German U-boat sank one U.S. Coast Guard buoy tender from
another class, Acacia (WAGL-200), while she operated in the
Caribbean Sea
. Acacia was one of the ex-Army mine-planters acquired by the
Lighthouse Bureau after WWI. The USCG named a "C" class 180 in honor
of the sunken vessel. Though the 180s
serving in the Pacific came under enemy air attack on many occasions, no
severe damage resulted. The 180s contributed to the screen of anti-aircraft fire
around the fleet during air raids and shot down several enemy aircraft while
contributing to the destruction of others. One tender suffered significant
damage from an explosion attributed to a floating Japanese mine. There were no
encounters between the buoy tenders and Japanese submarines or surface
units. Weather was also a formidable adversary. Tenders operating in the
northern reaches of both oceans frequently battled ice and snow as they went
about their work. Tenders in the Atlantic Theatre were subjected to
dangerously high winds and waves during storms, especially during winter
storms on the
North Atlantic
. They also had to dodge hurricanes sweeping up from the tropics during the
summer and fall months. The Pacific 180s, besides normal ocean storms, were
subjected to the fury of powerful typhoons that regularly sank large ships.
Heat was a problem in both theatres and, while never a grave threat to the
vessels; it made life unpleasant for crews operating near the equator in the
days before air conditioning. The 180s survived enemy action and the dangers
of operating in the maritime environment in any weather. Every vessel survived
the conflict and the class provided valuable service in the war effort. Their
endeavors made possible the safe navigation of thousands of warships and
merchantmen as the Allied powers dispatched convoys, battle groups, and
invasion fleets to the far reaches of the Pacific and set up a floating
conveyor belt carrying millions of tons of war materiel across the
Atlantic.
PEACETIME MISSIONS
While a few vessels were
left overseas to repair and improve ATON systems in the various Pacific island
groups, most of the 180s returned to the
United States
where their wartime crews returned to civilian life. The drop in military
manning levels, however, was so precipitous that the US Coast Guard had to
decommission several 180s temporarily, simply because there were no crews
available. Like their crews returning to civilian life, the buoy tenders
themselves underwent a radical change in appearance. Black hulls and gleaming
white topsides replaced the haze gray and oceanic camouflage schemes that
helped to hide the tenders from enemy eyes during the war years. Shipyard
workers stripped depth charge racks and mousetrap launchers from the vessels.
Cutters re-assigned to the
Great Lakes
had their 3" and 20mm guns removed.. Those remaining overseas or assigned
to coastal districts kept some of their armaments, but the guns spent most of
their time concealed beneath canvas covers. With the war’s end service on
the buoy tenders was more mundane. Instead of operating as part of vast naval
fleets and anchoring in the company of battleships, the 180s went about their
prescribed missions alone. For the most part they spent their time tending
buoys and other ATON. This was an especially important part of returning
American maritime commerce to a peacetime footing as some ATON were neglected
during the war while others were purposely disestablished to prevent their use
by enemy forces. Similarly, many ATON established during the war required
removal, as they were non-essential to normal maritime commerce. Most buoy
tenders returning stateside quickly joined their domestic counterparts in an
unending routine of hauling buoys, carrying out maintenance on various ATON,
and delivering supplies to out of the way navigational installations.
TENDING BUOYS
The process of tending or
servicing buoys has been the basic mission of the 180s throughout their
careers. It is a process that has evolved through several important
technological changes but one that remains fundamentally the same. Tending an
ATON begins with traveling to its location and making contact. Once on scene,
the conning officer maneuvers the vessel alongside the buoy so the deck force
can snag it with reaching poles. Approaching a buoy is often a tricky and
hazardous proposition since the marker's very purpose is often to mark shallow
water or other hazards to navigation. The difficult nature of the task is
reflected in the records of frequent groundings by the buoy tender fleet. The
180s original design, specifically single screw propulsion, meant they were
not the most maneuverable platforms and required a skilled ship handler to
bring them alongside an ATON. The addition of bow thrusters during
later renovations made them more nimble during close quarters maneuvering. Once
alongside a buoy, the deck crew snags it and then attaches the hook from the
cargo boom to a lifting eye on the marker. Then the boom operator lifts the
buoy out of the water and deposits it on the open well deck in front of the
superstructure where it is secured. The process of recovering the buoy has not
changed in any appreciable way over the years. Bringing the buoy on board is
less than half the recovery process. A concrete block or 'sinker' weighing
many thousands of pounds anchors each buoy. Heavy steel chain links the anchor
block to the floating buoy. In order to conduct a thorough inspection of the
whole system, the chain and sinker must be brought up. The mooring chain is
led through a chain stopper on the edge of the well deck. The chain stopper is
a mechanical device that prevents chain from slipping back overboard,
essentially a one-way valve for chain. After the chain is secure in the chain
stopper the boom operator reaches as far down the chain as possible and snags
a length of chain, which is pulled up, laid in the chain stopper, and secured
on deck with quick-releasing pelican clamps as a safety mechanism. Once the
chain is secure, the boom snags another length and hauls it up. In this
hand-over-hand fashion the boom operator hauls up the entire mooring. Often
the sinker is left hanging overboard on the outside of the chain stopper. This
part of the recovery process has changed since the 180s entered service.
Initially, the vessels did not have a chain stopper mechanism, and chain was
secured only by tie downs when the boom released one length to grab another.
The crew of
Tupelo
is credited with inventing and demonstrating the value of a prototype chain
stopper in 1948. With buoy, chain, and sinker resting on the buoy deck, or
secured in the chain stopper, the deck force can begin working. This is the
opportunity to inspect the whole system and do any needed painting, repair any
structural damage, and check the batteries if it is a lighted ATON. The
biggest change in this area over the years has been the shift from gas to
electric lights, followed by the addition of solar panels to lighted buoys.
The panels greatly extend battery life, thereby making battery replacement a
less common chore. Sweetgum conducted the first at-sea
“solarization” of a lighted buoy. At present all lighted buoys mount solar
panels to extend battery life and improve the reliability of the light. Once
serviced, the buoy must be returned to its charted position. Similarly, new or
replacement buoys must be placed exactly on station. To accomplish this task,
navigators feed information from the ship's satellite navigation system to the
conning officer who guides the vessel to the correct place over the sea
bottom. Once on station the bridge tells the deck force to release the sinker.
A blow with a sledgehammer trips the chain stopper's release mechanism. This
release sends the sinker to the bottom. The deck crew cuts or releases any tie
downs securing the chain to the deck. The process of finding the exact
position where the sinker belongs has changed dramatically over time. Prior to
the introduction of Global Positioning Systems (GPS) the conning officer was
directed to the correct spot by a team of at least three crewmembers using
survey sextants to measure horizontal angles to known landmarks visible from
the vessel. This process, while accurate when done by experienced navigators,
was time consuming and entailed more chance for error than today's use of
computerized navigation systems. The shift from sextants to differential GPS
has improved the efficiency of repositioning ATON. Not all buoy stations are
within sight of land and sextant angles require fixed landmarks. In the days
before GPS the Coast Guard used LORAN or radar ranges to position these
offshore markers. GPS is more accurate than these older navigational tools and
has increased the accuracy of placement for offshore buoys. Though the
missions of the 180s became more mundane after World War II, they were not
without the possibility of excitement and danger. The US Coast Guard had
designed the 180s as functional SAR platforms and that capability, proven by
rescues during the war, allowed them to respond to emergency calls throughout
US waters. As the buoy tenders went about their ATON work, they were always on
standby for dispatch to the aid of nearby mariners in distress. Dovetailing
nicely with other SAR features was their ability to break ice on frozen
waterways. This meant they could not
only clear shipping lanes for routine commerce, but also go to the aid of
other vessels trapped in the ice. Hence, they could carry out rescues that
were impossible for most cutters and patrol boats. Beyond their seaworthiness
and icebreaking capabilities, the buoy tender's SAR value was augmented by
equipment for towing other vessels and the ability to fight fires on ships or
along the shore.
NEW ROLE FOR THE 180S
By the late 1940s all the
temporarily decommissioned buoy tenders had returned to service as manpower
levels stabilized. All thirty-nine members of the type were engaged in ATON,
SAR, and, depending on their location, icebreaking duties. Their combined
operations covered the entire shoreline of the continental
United States
, the waters around
Hawaii
and
Alaska
, and large portions of the
Pacific Ocean
. During the postwar years the 180s were also increasingly involved in law
enforcement activities. These efforts centered on two disparate pursuits. The
buoy tenders helped enforce various federal fishing laws and regulations, with
particular focus on fishing in the Bering Sea and
Gulf of Alaska
. The efforts emphasized keeping foreign fishing vessels out of
U.S.
waters and enforcement of international agreements on the high seas. Tenders
stationed farther south along the
California
coast and those in the
Southeastern United States
were concerned with drug smuggling more than illegal fishing. As the flow of
illicit drugs entering the
U.S.
increased, many cutters, 180s included, went out to sea to meet vessels headed
for American ports, not to provide aid or check their fishing catch but to
search them for cargoes of contraband. The efforts to interdict drug smugglers
increased throughout the latter half of the century as the volume of smuggling
increased. In the 1980s and 1990s preventing undocumented immigrants from
entering the
US
by sea was added to the list of maritime law enforcement activities pursued by
the 180s.
CONTINUING MILITARY SERVICE
The 180s saw limited duty
in the Korean War and significant action in
Vietnam
. Five of the buoy tenders served in the waters around
South Vietnam
. None took up permanent station in the theater; instead, they rotated through
short tours from homeports in the
Philippines
and elsewhere in the Pacific. The vessels spent most of their time placing and
maintaining ATON marking coastal and inland waterways. Simultaneously, they
conducted extensive training of Vietnamese nationals in preparation for the
day when the ATON system passed into Vietnamese hands. This transfer was
completed in 1972. Other missions carried out by the 180s serving in the war
zone included cargo transport, survey work, and support of efforts to
interdict enemy supply lines. Most of
the 180s did not see wartime action after their service in World War II. This
does not mean, however, that military training was not part of the buoy
tender's overall mission. The potential military role of the Coast Guard,
however, means USCG units participate in periodic military exercises and
operations with the US Navy and allied maritime forces. As part of the US
Coast Guard, the buoy tenders regularly drilled to improve their ability to
find enemy forces, engage potential targets, survive battle damage, and work
in concert with naval units. These maritime defense activities have been
ongoing throughout the class' history and continue today.
THE FLEET SHRINKS
By the early 1970s the 180s
had reached their thirtieth anniversaries as Coast Guard cutters. It was
during this decade that the buoy tender inventory began to shrink.
Appropriately enough, the first to go was Cactus, the first built. Cactus
ran hard aground in 1971 and the damage was so extensive that the
government decided to decommission the vessel rather than repair her. The USCG
decommissioned the first of the 180s two days shy of the thirtieth anniversary
of her launch. Two more 180s left active duty, albeit less traumatically
and according to longstanding plans, the following year. A fourth vessel left
service in 1973 and two more followed in 1975. These vessels, even Cactus, went
on to second careers in the hands of foreign governments or private owners.
Only one buoy tender was
decommissioned by design in the 1980s; Sagebrush left active duty in
April 1988, more than forty-four years after her commissioning. It was,
however, a hard decade on the 180 fleet. On 28 January 1980, Blackthorn collided
with a commercial tanker in
Tampa Bay
,
Florida
. The collision holed and capsized the buoy tender and it sank quickly,
killing twenty-three members of the crew. In December 1989
Mesquite
grounded on a rock pinnacle jutting
from the bottom of
Lake Superior
. The crew safely abandoned ship in lifeboats, but the vessel suffered severe
damage after pounding against the rocks during winter storms. USCG planners
decided to decommission
Mesquite
soon after the accident and a commercial salvage company scuttled her in 1990.
Three of the buoy tenders became Medium Endurance cutters (WMEC) during
the 1980s. These conversions entailed the removal of the buoy handling gear
and reassignment to predominately LE and SAR patrol duties.
The
US Coast Guard decommissioned fourteen buoy tenders in the 1990s and seven
more in the early years of the next decade. In early 2002, eight of the
thirty-nine 180s remained in service as USCG buoy tenders. One other 180
remained in commission as a cutter, but operated in the role of a training and
support vessel. Few of the decommissioned cutters have actually been destroyed
or dismantled. Instead, they can be found throughout the world. A number were
transferred overseas under the Foreign Military Sales Program and serve the
navies of countries friendly to the
United States
. Two have embarked on careers as fishing vessels. One serves as a mobile base
and supply ship for a missionary group working in the Pacific. Even Cactus,
first of the 180s, first wrecked, and first decommissioned, still exists.
The remains of the tender built in 1941 serve as a barge in the
Pacific Northwest
. The 180s that have passed out of use entirely were sunk as reefs or ended
their lives as targets for naval munitions tests.
MAINTENANCE,
REPAIR, AND OVERHAUL
The
180-footer design, drawn up before World War II and built in the early 1940s,
has demonstrated remarkable longevity. The US Coast Guard decommissioned the
bulk of the class only within the last decade and nine vessels continue to
serve on active duty, sixty years after they were built and well past the
projected life span of any military vessel. This is not to say that the 180s
simply steamed out of the shipyard after their completion and were so well
built that they lasted for five or six decades. To
keep these buoy tenders on active duty the US Coast Guard has expended
millions of dollars. The efforts that kept the 180s operating into the
twenty-first century began in the early 1940s. Even as they went about their
duties in the midst of war, maintenance remained a regular part of every
tender's routine. Maintenance carried out by the tender crews as part of the
everyday routine was interspersed with “availability” periods. During
these periods, scheduled at the request of the tender's captain or by orders
sent down the chain of command, the individual tenders temporarily left
service while the regular crew, often augmented by ship repair specialists,
addressed maintenance issues too complex to handle while the vessel pursued
its regular mission. The availability periods took many forms. In the simplest
incarnation, the tender would anchor out of the way or tie up alongside a dock
after a long voyage or operation and the whole crew would devote a few days to
putting everything in order. In instances where the vessels required extensive
work, the tenders visited shipyards in the
US
or at naval bases overseas. A visit to a shipyard
entailed any number of repairs including time in a drydock for work on the
hull and exterior propulsion equipment. After the war the 180s were
placed on a cyclical maintenance schedule. Exact timetables varied from ship
to ship and according to the service's needs, but on average, each cutter
visited a shipyard for a yard period or “availability” on a biannual
basis. Time in the yard allowed for the undertaking of major repairs and
improvements as well as routine maintenance chores like painting the hull.
Some of these yard periods took place at the US Coast Guard's yard in
Curtis
Bay
, but most occurred at commercial shipyards near the individual tender's homeport.
Buoy tenders were, of course, sent to the nearest yard equipped to handle the
problem after groundings or other mishaps. In a few instances the
Curtis
Bay
yard carried out special work to prepare vessels for unique projects. This was
the case when Spar and Bramble were readied for a trip through
the
Northwest Passage
and Evergreen underwent conversion to become an oceanographic research
vessel. Cyclical yard periods and the efforts of personnel stationed on
the buoy tenders kept them in proper shape for many years. Nevertheless, by
the 1970s the vessels had reached the end of their projected thirty-year life
spans and many were in need of substantial overhauls if their service careers
were to continue. The first round of overhauls to affect the 180 fleet, known
as “Austere Renovations”, began in 1974. Improvements carried out as part
of the Austere Renovation program consisted of habitability improvements,
engineering improvements, and equipment upgrades. The habitability
improvements included modernization of the World War II-era crew quarters and
sanitary facilities, installation of a crew lounge, remodeling of the
dispensary area, and improved climate control systems. Work in the engineering
spaces centered on the overhaul of the propulsion systems and a general
modernization of the engineering plant. Equipment upgrades elsewhere included
installation of modern electronics and replacement of aging deck machinery.
Four buoy tenders went through the Austere Renovation program. At about the
same time the Austere renovations commenced, the US Coast Guard began
rotating other 180s through shipyards for more extensive improvements as part
of the 'Major Renovation' (MAJREN) program. Under the MAJREN program, vessels
received new diesel engines while the main electrical motor and its control
systems underwent a thorough overhaul. New electrical wiring and switchboards
were installed, as were entirely new water piping and sewage handling systems.
Each vessel received a bow thruster to improve its maneuverability in close
quarters. Future crews benefited from the replacement and modernization of all
furnishings in the living areas. Decreasing the size of the forward hold
allowed the expansion of the living area itself. Fourteen 180s went through
the MAJREN program. These repairs and improvements extended each vessels
service life by an estimated ten to fifteen years. The
third renovation program to affect members of the 180 classes was the Service
Life Extension Program (SLEP). This program began in 1983 and culminated a
decade later. These renovations all took place at
Curtis
Bay
and involved vessels that previously went through the MAJREN program. Whereas,
Austere and MAJREN had entailed significant overhaul, the SLEP was the most
extensive effort to extend the class' life span. During the yard periods new
main engines and generators replaced the aging power plants. Upgrades and
replacement components served to modernize the electrical systems. Shipyard
technicians installed new navigational systems and computer controls for the
engineering systems. SLEP work was far more than the replacement or upgrade of
various systems or simply the addition of new equipment;
it also entailed significant structural changes. Workers sandblasted each
vessel throughout to remove all paint and expose the underlying steel for
careful inspection. Shipyard workers tore away the existing deckhouse and
replaced it with a new structure that included an expanded pilothouse, ship's
office, and radio room. Internal changes included the installation of smaller
forward tanks and the conversion of the forward cargo hold to make room for
the installation of more berthing space, including bunks and heads for female
sailors and a crew lounge. The reconfigured space also included boatswain,
electrical, damage control, and electronics workshops. Work was done in the
internal spaces to improve the watertight integrity of the vessel. Up on deck,
a hydraulic system replaced the electric weight handling gear and the boom
operator's booth was relocated. For Cactus class vessels SLEP included
removal of the A-frame and reconfiguring the cargo handling system so the boom
attached to the bridge wings. Hydraulic weight handling systems were also
added to the boat davits on either side of the superstructure. The SLEP
overhauls were extensive and they were also time consuming and costly. The
average cost for a single tender to pass through the SLEP was $11 million.
Time spent in the yard averaged eighteen months or, according to the analysis
of two representative overhauls, 210,000-215,000 man-hours by shipyard
workers. Like the earlier programs, the SLEP helped to extend the service life
span of the aging buoy tenders. Coast Guard projections during the period
estimated the SLEP would extend vessel
life spans by fifteen to twenty years. Three SLEP vessels remain in service as
of 2002. All other 180s that went through the SLEP program left service
beginning in 1999.
THE
REPLACEMENTS
Renovating and improving
the 180s bought time, but it did not ameliorate a basic problem facing the
service. The US Coast Guard would eventually need to replace the 180s. While a
steel vessel can be kept functioning almost in perpetuity, the cost of doing
so eventually reaches a point where replacement is the preferred option. The
savings can be measured in monetary terms as well as improved efficiency
resulting from fewer breakdowns, less frequent yard periods, and the use of
more advanced technologies. By the 1990s it was time to begin the
lengthy process of creating a successor for the vessels one authority called,
". . . quite possibly the most versatile and useful cutter ever built for
the Coast Guard," and, ". . . clearly the most multi-mission capable
ship in the Black Fleet." An initial planning and consultation period
ended in January 1993 when the USCG awarded a contract to Marinette
Shipbuilding for the production of a new class of seagoing buoy tenders.
Marinette Shipbuilding won a second contract in June 1993 for the construction
of a new class of coastal buoy tender. The new seagoing tender class took the
name of the prototype vessel: Juniper. The coastal tenders became the Keeper
class, each named for a well-known lighthouse keeper from the past. The Juniper
class vessels measure 225 feet in length, 46 feet in beam, and are
propelled by two diesel engines driving a single reduction gear and a
Controllable Pitch Propeller (CPP). Marinette builds them with both a bow and
stern thruster, which combined with the CPP makes for a maneuverable platform.
Like the 180s, they can handle limited icebreaking duties. The new seagoing
tender incorporates many advances in maritime technology that allow the
tenders, though larger than their predecessors, to operate effectively with a
smaller crew.
Perhaps the most
significant advance is the use of a dynamic positioning system (DPS) to help
keep the tender on station. The DPS involves computerization of the systems
that maneuver the vessel, namely propulsion and steering, combined with the
latest in satellite navigation technology. This system allows the Juniper class
vessels to maintain position within a 10-meter radius in 30-knot winds and 8'
seas. Juniper passed from Marinette Shipbuilding to the USCG in 1996.
Projections call for a total of sixteen Juniper class tenders. Keeper
class tenders measure 175
feet in length and have a beam of 36 feet. They are the first USCG cutters
propelled by a twin Z-Drive. This propulsion system is essentially a
propeller installed within a nozzle that can rotate 360 degrees. This means
thrust, in any amount manageable by the vessel's diesel engine, can be applied
in any direction. The Z-Drive system, popular with many newer tugboats,
combined with a bow thruster ensures the Keeper class tenders have
excellent maneuverability and station-keeping qualities. Each vessel also
carries dynamic positioning systems, honing the vessel's ability to hover on
station even further. As of 2002 the USCG has fourteen Keeper class
tenders in service. As
the new seagoing and coastal tenders have entered service, the US Coast Guard
has decommissioned the older 180s. At the beginning of 2002
there were nine of the old buoy
tenders still in commission. They will phase out slowly and tentative plans
call for Acacia to be
the last in service with a decommissioning date sometime in 2006.
A
GREAT DESIGN
The 180-foot buoy-tending
cutters built for the US Coast Guard during the early 1940s are remarkable in
terms of their longevity. Except the US Coast Guard's Storis, no other
military vessels on active duty today served in World War II. The 180s
longevity is not a case of superior construction, though they were undoubtedly
built quite solidly. The service
performed by the class for over sixty years is a function of their design. The
180s were extremely versatile and perfectly suited for their multifaceted
role. They could break ice, replace a buoy, and save a sinking ship all in the
course of a day's work. Moreover, they could complete these missions within
sight of their homeport or steam across thousands of miles of ocean to
complete an assigned task. They did not become outmoded until computers,
satellites, and automation changed the way ships are built and equipped. The
US Coast Guard spent time and money keeping the 180s in service long beyond
their projected life span because that remained the best option. These ships
that fought U-boats in World War II have spent millions of hours since making
the world's waterways a safer place for science, commerce, and recreation.
This was possible due to the design’s versatility and reliability.
Obsolescence crept up on the 180s very slowly, producing a tenure unmatched in
twentieth-century American maritime history. The
180-foot buoy tenders proved to be extremely versatile vessels during their
long careers. Though all spent some portion of their time afloat servicing
buoys, they served in many other pursuits as well. Many of these alternate
activities revolved around the vessel's intended secondary missions, search
and rescue, law enforcement, and icebreaking. Often, however, the tenders
carried out missions never envisioned by their designers, ranging from
transporting rare tropical fish to landing scientific parties on drifting
icebergs. This plethora of pursuits when combined with the wide geographic
distribution of the 180s makes it difficult to describe a typical or generic
career for a 180. The oceangoing buoy tenders built for the US Coast Guard in
the early 1940s served around the world and fulfilled the service's
requirement for a true multi-mission capable platform.
Cutter History:
World
War II
USCGC
Evergreen (WAGL-295) was commissioned on 17 March 1943. Her commanding
officers
were LT John E. Klang,
USCG, LT D. W. Moore, USCGR,
and LT F. D. Hilditch, USCGR. On
18 August 1943 USCGC Evergreen departed
Boston
en route
to Weather Station No. 2. Arriving at
Argentia
,
Newfoundland
on the 21st, necessary repairs were made to the radar equipment. She arrived
on station on the 24th. Next day she had a sound contact at 1,300 yards which
was lost three minutes later and believed to be fish. On 8 September 1943, a
mine was sighted, but darkness and sea conditions made any attempt to sink it
unsuccessful. She was relieved of the station on the 12th. She arrived at
Boston
on the 18th. Her next duty on weather patrol began when she left
Portland
,
Maine
on 14 October 1943en route to Weather Station No. 1. She arrived on station on
the 18th and the patrol was uneventful until the 31st when a full
gale from the SW made weather observations impossible. They could not be
resumed until 4 November 1943 and
the patrol was then resumed until the 7th
when she was relieved. She arrived at
Boston
on 11 November 1943. On 29 November 1943 the cutter again departed
Boston
en route to Weather Station No.2, where on 5 December 1943 she relieved USCGC Manhasset.
On 26 December 1943 she was relieved by USCGC Sorrel
and Evergreen then proceeded
to
Boston
.
1944
(Evergreen’s
war diaries for the first five and a half
months
of 1944 are not available)
Soon
after Evergreen departed
Boston
on 13 May 1944, fire was discovered in the upper engine room but was extinguished
by 0045 on the 14th. She had returned to
Boston
by 1030 that day for close examination and repairs. Departing again for Weather
Station No.1 on the 15th, she departed station on the 18th
with
an appendectomy case for
Bermuda
. En route back to station she encountered Thomas S. Gorton, a British
schooner, and reported her to CTF 24 who gave her clearance.
Evergreen
patrolled Weather Station No.1
Until 2 June 1944. Returning to
Argentia
,
Newfoundland
she left again for patrol of Weather Station No.2 on the 19th. She was relieved
on 12 July 1944 and returned to Argentia. Evergreen arrived
at Argentia on 15 July 1944 from
weather patrol duty.
On 26 July 1944 she
departed Argentia in company with USCGC Frederick Lee to escort the
merchant ships Biscaya and
Aragon to
Greenland
. On the 30th
Aragon
was detached in the custody of PG-70
and next day Biscaya proceeded with Frederick
Lee. At 1612 on 31 July 1944
Evergreen made a contact and fired 16 anti-submarine projectiles,
maneuvering afterwards to regain contact. Then she made numerous runs on what
appeared to be either whales or cold layers of water. She reached Narsarssuak on
1 August 1944 and on the 2nd delivered cargo to
Gamatron
Island
returning to Narsarssuak the next day to continue unloading and loading. On the
4th she escorted Biscaya to
Kungnat
Bay
and moored at Gronne Dal, returning to Narsarssuak on the 6th. The next
day she departed to assist a disabled plane, but was
secured at 0818 returning to moorings. On the 12th she proceeded to
Fredericksdal to deliver cargo and
had to remain there until the
19th because of unfavorable
weather conditions. She then proceeded to
Comanche
Bay
and then to lkateg Sound to await parts for a thrust bearing. Here her motor
launches serviced
Deception
Pass
lights and daymarks and lkateg sound beacons. Evergreen
remained anchored at Ikateg,
undergoing repairs until 9 September 1944.
Getting underway she encountered
heavy weather on the 10th and 11th,
but contacted USCGC Eastwind on the 16th and
was instructed to patrol the
area between
Cape
Pansch
and Great Koldewey. She was relieved on the 19th and after replenishing food supplies,
fuel and water at
Dove
Bay
the cutter took over
the patrol of the Cape Pansch-Cape
Wynn area on the 22nd. She had to
anchor in Clavering Straits a
number of times to make minor
repairs and also because the ice pack. poor visibility and snow, prevented
patrolling. During this time.
however, she maintained radar search and
on the 30th she took USCGC Northland tow
with USCGC Storis
screening and proceeded
to
Reykjavik
,
Iceland
. The Northland
then proceeded under her own power
to the dock. On
October 20th Evergreen again
took Northland
in tow and with Storis
screening and set out for Narsarssuak. Heavy seas
and high winds on the 23rd caused
the hawser
to part and early on the 24th, Evergeen lost radar
contact with the other two
vessels not regaining it until the 27th. She was then assigned to guard the
starboard quarter of Northland,
being towed by the Storis. The vessels reached Narsarssuak on 31October
1944 and discharged four German
prisoners of war in the custody
of the Provost
Marshall, US Army. On 6
November 1944 Evergreen proceeded to
Fredericksdal Harbor and on the
8th was en route to Prince
Christian Radio Direction Finder Station where she discharged personnel and
moved to Kangderluk Fjord
on the 10th to await moderation
of the wind. When the weather
permitted on the 14th, she resumed unloading supplies for the station. On the
15th she stopped at
Cape
Adelaer
and on the 16th at Caroline Amalie Harbor.
On the 19th she dispatched a landing party
of 27 men, under the direction
of LTJG V. G. Heichel to Torgilsbu, (
Greenland
east coast) to investigate possible enemy activity. The investigation was
negative and the vessel
proceeded to anchor in Kangderluk
Fjord. On the 20th operations at
the D/F station were carried
out and the cutter anchored in Fredericksdal
Harbor, completing construction of the
range lights there on the 21st and
returning to Narsarssuak on the 23rd. Delayed
by an appendectomy
case Evergreen
left Narsarssuak
on 28 November 1944, and discharged
cargo at Gamatron and
Simiutak Cove, dispatching
a cargo boat on the 30th
to pick up two Army chaplains. The
boat had to remain there because
of high winds as Evergeen
sought a suitable anchorage,
unable to continue operations because of the wind. Setting out for Simiutak on
1 December 1944, she had to turn back because of high
winds and proceeded to Gamatron on
the 3rd and then to Simiutak
expediting cargo, mail, and personnel in
Narsak Cove on the 4th. Ice
breaking in Tundliarfik
Fjord was carried out on the 5th and 6th. Next
day she set out to await USCGC
Tampa
and X-16 to escort them through the
ice to Narsarssuak. Ice breaking again on the 12th and 13th she again delivered
cargo, mail and personnel to Simiutak
and Gamatron.
On the 16th she delivered
personnel to Fredericksdal. On
the 18th she again headed for
Prince Christian D/F station, but
had to reverse course because of high winds end set fast in the ice in
Kangderluk Cove, later being grounded when the entire ice
field moved. She was afloat on
the 19th with no apparent damage sustained.
On the 20th
she had to back out of heavy,
thick ice and on the 22nd reversed course after a leak developed in the main
hold, starboard side while she was maneuvering through the ice pack. She started
out again on the 25th but turned back under heavy seas
and high winds. On the 26th she
was finally able
to complete her mission. High winds and ship icing delayed
her return to Fredericksdal. She
moored at Narsarssuak on the 30th. Next day she broke ice in the main channel to
clear the way for the SS Linda.
1945
On
3 January 1945,
Evergeen
began a series of ice breaking
operations in the approaches to Narsarssuak and in Arsuk Fjord, being twice set
fast in the ice while en
route to and from Gronne Dal. From the 20th to the 23rd she assisted USCGC Northland
through the ice en route Narsarssuak and on the 25th assisted USCGC Algonquin.
En route to Gamatron with cargo she was again beset. On the 30th having
completed fueling of the mine at Ivigtut, she departed for
Argentia in company with USCGC
Algonquin and USCGC Mohawk.
On 10 February 1945 she moored at
Portsmouth
,
New Hampshire
Navy Yard for 30 days availability. Evergeen
continued on availability
until 20 March 1945, when after a
ten day training period at Casco, Maine, she once more departed for
Greenland. (April 1945 War Diary not available) On 1 May 1945 she was en route
to Gronne Dal whence she departed on the 4th with USCGC Eastwind,
USCGC Algonquin, and USCGC Arundel
to hold an inspection at sea on Eastwind.
Returning to Narsarssuak, she remained there until the 5th when she took an
inspection party to Gamatron and Simiutak. Returning to Narsarssuak on the 14th
she took another inspection party to Narsek on the 19th. She then proceeded to
Ivigtut on the 31st to fuel the mine. Underway in Brede Fjord to Narsarssuak on
1 June 1945, Evergeen
left on the 5th en route to
Marrak,
Greenland
in company with FS-111. Here she
delivered 75 tons of cargo on the 7th and returned to Narsarssuak where, on the
13th, she had loaded another 185 tons for Marrak. She returned to Narsarssuak on
the 22nd by way of Gronne Dal and on
the 25th departed for Gamatron. Evergeen
delivered 50,985 gallons of fuel
oil before again returning to Narsarssuak on the 27th. On 4 July 1945
Evergeen
departed for
Fredericksdal with USCGC
Sorrel and
from there
proceeded to Prince Christian Army Base with that vessel in company. She
returned to Kangderluk Cove, however, after encountering extra heavy ice until
the 10th when a second attempt had to be abandoned. Again proceeding on the 11th,
growler ice forced the ship on to a large piece of blue ice and damaged her
hull, a 36" crack running longitudinally
across frame No. 68 below the ice belt.
She returned to Narsarssuak and remained there until the 23rd when she again got
underway for Fredericksdal with Sorrel.
She anchored at Kangderluk until 1 August 1945. On that date she again got
underway for Prince Christian Army Base, stood into Natsek Cove and unloaded
cargo, returning to Narsarssuak on the 7th. On the 17th she again proceeded to
Fredericksdal and on the 18th was underway for
Comanche
Bay
with Sorrel. From there she proceeded
to Ikateg on the 25th. On the
30th she escorted SS Annik through
the ice in Angmagssalik Fjord
to
Deception
Pass
to work on beacons. On 2
September 1945 she proceeded for
Cape
Dan
to evacuate personnel.
On the 3rd she anchored in
Angmagssalik
Harbor
repairing aids to navigation and then proceeded to Ikateg. Unloading the SS Annik
until the 9th, she returned to Angmagssalik for a day and then was
back at Ikateg, resuming unloading of Annik
until the 15th. On 22
September she got underway for
Cape
Dan
, but the seas were too heavy to work small boats and she returned to Ikateg.
Anchored in Angmagssalik on the 23rd
she visited Ikerssak Sound the next day, but returned on the 25th to
await calmer seas. On the 26th Evergreen
anchored at
Cape
Dan
and Tunog Passage. Evergreen sent a
working party to Kulusk and on the 28th completed the evacuation of
personnel from
Cape
Dan
. Proceeding to Ikateg on the 29th, where she loaded cargo, Evergreen
then got underway for Narsarssuak on 30 September 1945.
Postwar
Evergreen
was stationed at Boston,
MA
from 1945-1972 and used for ATON and oceanographic research. From 27 March-24
August 1950 the cutter shared International Ice Patrol duty with the cutters
USCGC Acushnet and USCGC Tampa. During
that patrol from 7 July-11 August 1950 Evergreen
conducted an oceanographic survey from north of the Grand Banks to
Baffin Bay. From 5 March-10 August 1957 she shared International Ice Patrol with Acushnet
and from 27 July-4 August 1963 the tender conducted the Labrador
Sea survey and made observations in the
Kane
Basin
and Smith Sound. This was made possible by the unprecedented blockage of
Kennedy Channel by an ice island. Evergreen
conducted oceanographic experiments from March-July 1964 in the Grand
Banks-Newfoundland area in support of the International Ice Patrol. During
October-November 1965 she conducted oceanographic surveys between the North
Atlantic and
Arctic
Oceans
from Greenland to
Iceland
to Scotland. This was followed by an oceanographic survey between Fortaleza,
Brazil
and St. Peter and Paul Rocks in
January-February 1966. In April
1967 the cutter was back on the International Ice Patrol, following up with an
oceanographic survey off
New England
in July. A month later, in August, the ship returned to the Arctic and
conducted oceanographic surveys in the
Labrador Sea.
Former
crewman Lewis Brackett reported that in January 1967 Evergreen encountered a
storm while steaming off the Grand Banks with "occasional sets of 90 foot
high waves--we repeatedly broached and almost capsized. . . .I was on the bridge
when she went over 67 degrees. . . .my friend was hanging onto the inclinometer
[while] I held onto a porthole dog."
From 11-22 December 1967 conducted a hydrographic survey between Cape Cod and
Cape
Hatteras. After Christmas the cutter returned to sea to survey the area between
Nova Scotia
and
Long Island
from 15-26 January
1968. Later in the year, during 7-16 September 1968 she again conducted an
oceanographic survey between
Nova Scotia
and
Long Island
. Later, between 23-27 September 1968, the crew conducted survival craft drift
project off
Nantucket
. On 23 December 1968 there was a
fire on board and the ship sustained flooding the main motor and main generator
spaces. Afterward, the cutter was placed in storage until April 1970 at Curtis
Bay, MD. During this time the cutter was designated to conduct further oceanographic research. In
September 1970 the cutter conducted SAR research 125 mi E of Norfolk, VA
followed by conducted oceanographic research between
Nova Scotia
and
Cape
Hatteras
from 14 October-9 November 1970. In May 1971 Evergreen
conducted a research cruise on the
Grand Banks. From 14 September-14 October 1971 the ship conducted oceanographic research
between
Nova Scotia
and Cape
Hatteras. The during November 1971 she conducted a surface-current research cruise off
Sanibel Island, FL. Between March and June 1972 the cutter served on the
International Ice Patrol and conducted surveys of the patrol area.
In 1974 the cutter homeport was changed to
New London,
CT
where the cutter was again to be used as an oceanographic research vessel until
her decommissioning. In addition to conducting surveys and research, the cutter
engaged in law enforcement activities. Some of the more noteworthy drug seizures
included that of FV Glenda Lynn off Long Island with 27 tons of marijuana
on board in May 1983 and the 25 September 1984 seizure of the yacht Margie
150 mi SE of Nantucket Island carrying 4 tons of marijuana. In July 1986 the
cutter also seized FV Sao Marcos off Nantucket
Island
for use of an illegal liner in nets.
Laying
the keel of USCGC Evergreen at the Marine Iron &
Shipbuilding
Yard, Duluth, MN, 15 April 1942
USCGC
Evergreen under construction 30 April 1942
USCGC
Evergreen prior to her launching on 3 July 1942
USCGC
Evergreen in Duluth - April 1943
USCGC
Evergreen in heavy seas on the International Ice Patrol in 1951
USCGC
Evergreen in Boston Harbor on 7 January 1964
USCGC
Evergreen -no date
USCGC
Evergreen on 28 February 1973
Bridge
of USCGC Evergreen- 22 February 1983
USCGC
Evergreen International Ice Patrol shoulder patch
Sources:
Cutter
File, Coast Guard Historian's Office.
HABS/HAER,
National Park Service, US Department of the Interior. US Coast Guard 180-Foot
Buoy Tenders. Washington, DC: Government Printing Office, 2003.
Robert
Scheina. Coast Guard Cutters & Craft of World War II.
Annapolis: Naval Institute Press, 1981.
Robert
Scheina. Coast Guard Cutters & Craft, 1946-1990.
Annapolis: Naval Institute Press, 1990.
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