Natural Resources

The natural resources collections offer centuries of evidence about how Americans have used the bounty of the American continent and coastal waters. Artifacts related to flood control, dam construction, and irrigation illustrate the nation's attempts to manage the natural world. Oil-drilling, iron-mining, and steel-making artifacts show the connection between natural resources and industrial strength.

Forestry is represented by saws, axes, a smokejumper's suit, and many other objects. Hooks, nets, and other gear from New England fisheries of the late 1800s are among the fishing artifacts, as well as more recent acquisitions from the Pacific Northwest and Chesapeake Bay. Whaling artifacts include harpoons, lances, scrimshaw etchings in whalebone, and several paintings of a whaler's work at sea. The modern environmental movement has contributed buttons and other protest artifacts on issues from scenic rivers to biodiversity.

This model represents a vessel powered by both steam and sail power. An auxiliary schooner, the Royal was one of several built after 1890 for use in the Alaska salmon fishery. Tenders like the Royal transported workers and supplies, and carried fish packed at remote canneries.
Description
This model represents a vessel powered by both steam and sail power. An auxiliary schooner, the Royal was one of several built after 1890 for use in the Alaska salmon fishery. Tenders like the Royal transported workers and supplies, and carried fish packed at remote canneries. The model shows a deckhouse with a pilothouse forward, a fish hatch, and a slide companionway to the forecastle.
The Royal was built in 1891 by Matthew Turner at Benicia, California. Turner, born in Ohio in 1825, grew up on the shores of Lake Erie, where he learned about fishing and the ship-building trades. In 1850 he joined the throngs of fortune-seekers heading to the California gold rush. After some success in the gold fields, he returned east but was soon back on the West Coast, where he organized a trading company that shipped lumber and other cargoes. He also began building ships, and in 1882 he moved his operations to Benicia, on Suisun Bay, northeast of San Francisco. A prolific builder, Turner launched some 228 sailing vessels in his career. The site of Turner’s Benicia shipyard was registered as a California Historical Landmark in 1987.
date made
1891
maker
Turner, Matthew
ID Number
TR.076238
catalog number
076238
accession number
28022
This model represents a typical Massachusetts whaleship of the mid-19th century, fully rigged and ready for a long cruise that might last for as much as four years. The name “U.S.
Description
This model represents a typical Massachusetts whaleship of the mid-19th century, fully rigged and ready for a long cruise that might last for as much as four years. The name “U.S. Grant, Edgartown” on the ship’s stern is fictional—no ship by that name ever sailed for the whaling fleet. The ship’s bottom is lined with copper sheathing, to keep out the teredo navalis, a tropical worm that bored into the wood of ship’s hulls and weakened the structure, as the termite does to wooden structures on land.
The whaleboats are the most prominent features. After whales were sighted by lookouts perched at the mast tops, the boats were dropped over the sides of the mother ship to chase them. Also over the side are the cutting stages, where the whale’s fat, or blubber, was sliced off the body in long strips.
The main feature on the ship’s deck is the try-works, or giant pots set into a brick framework, where the whale’s blubber, was boiled down into oil. After the blubber became liquid, it was drawn off to cool and then poured into heavy barrels and stored below in the ship’s cargo hold.
This model was purchased in 1875 at Edgartown, on the island of Martha’s Vineyard, Mass.; it was one of the first objects in the Smithsonian’s National Watercraft Collection.
Date made
1875
model was purchased
1875
ID Number
TR.025726
catalog number
025726
accession number
4353
Half hull ship models were carved by shipwrights to a shape negotiated with the future owners of the ship.
Description
Half hull ship models were carved by shipwrights to a shape negotiated with the future owners of the ship. Once finished, the builder lifted the curved shape of the outer hull off the model and scaled it up to the dimensions of the full-sized ship on the floor of the molding loft. Then the ship’s timbers were cut to fit the lines drawn on the floor and lifted into position in the ship’s framework.
African American shipwright and former slave John Mashow built the whaler Jireh Swift in 1853 at Dartmouth, Mass. near New Bedford. The vessel measured 122 feet in length and 454 tons. Its first voyage was to the northern Pacific and lasted nearly four years. The ship collected 45 barrels of sperm oil, 2,719 barrels of whale oil and 14,900 lbs of whalebone. Swift’s second voyage, to the same grounds, lasted more than four years and netted much more oil and bone for her owners. Nearly three years into her third voyage, on 22 June 1865 she was captured in the Arctic by the Confederate raider Shenandoah and burned, for a loss of more than $40,000.
Date made
1853
maker
Mashow, John
ID Number
TR.076323
catalog number
076323
accession number
015358
This model of a Chesapeake Bay log canoe was built in 1880 and displayed at the Great International Fisheries Exhibition in London in 1883. It shows a two-masted log canoe with a mustard-colored hull.
Description
This model of a Chesapeake Bay log canoe was built in 1880 and displayed at the Great International Fisheries Exhibition in London in 1883. It shows a two-masted log canoe with a mustard-colored hull. Although this model may look more like a recreational sailboat than a traditional paddling canoe, its roots can be traced back to the dugouts built and used by American Indians. Native Americans along the bay used dugouts, made by hollowing out a single tree trunk, to spear fish, gather oysters, and travel from one village to another. Europeans adopted the log-canoe technology shortly after arriving in the region in the early 1600s. By the start of the 18th century, colonists had modified the standard, single-log dugout, by hewing and shaping several logs and fitting them together to enlarge the craft. They added masts and sails, providing the means to travel farther and giving the vessels their distinctive appearance.
Despite the widespread use of frame-and-plank shipbuilding techniques around the Chesapeake, watermen continued building and using log canoes well into the 20th century. The canoes were ideal for oyster tonging in the many protected creeks and rivers that flow into the bay. This model includes a pair of hand tongs of the sort made by local blacksmiths for oystermen. A waterman would anchor his canoe over an oyster bed and lower the tongs into the water. With a scissoring motion, he would rake the tongs together until the iron basket was full and ready to be lifted onboard.
In terms of construction, the log canoe is the forerunner to the bugeye, which is essentially an enlarged canoe built of seven or nine logs with a full deck added over the hold. While log canoes are no longer used in commercial fishing, they can still be seen in special sailboat races on the Eastern Shore of the Chesapeake.
date made
1880
Date made
1875
ID Number
TR.25003
catalog number
025003
accession number
4586
At launching in 2006, the Emma Mærsk was the world’s largest containership, a distinction held until her seven sister ships Estelle, Ebba, Edith, Eleonora, Elly, Evelyn, and Eugen Mærsk, were launched in 2007–08.
Description
At launching in 2006, the Emma Mærsk was the world’s largest containership, a distinction held until her seven sister ships Estelle, Ebba, Edith, Eleonora, Elly, Evelyn, and Eugen Mærsk, were launched in 2007–08. Built at the Odense Steel Shipyard in Denmark, the ships are owned by the A. P. Moller-Maersk Group, the world’s largest global shipping company, whose beginnings date to 1904. Emma Mærsk is named for the late wife of Mærsk Mc-Kinney Møller, the son of the company’s founder, who served as the CEO from 1965 to 1993 and on its board until 2003.
Containers are standardized, reinforced steel boxes that can be packed with a wide array of products and materials and transported on ships, trains, and trucks. Loaded into the vast holds and onto the massive decks of containerships, they can be used time and again to carry goods between manufacturing centers and consumer markets around the world.
As globalized commerce expanded in the last half of the 20th century and into the first years of the 21st, ocean carriers grew as well. The first containerships in the 1950s were adapted freighters, the largest of which could carry about 800—1,000 containers. The standard designation for containers is teus—twenty-equivalent-units—or containers measuring either 20 or 40 feet in length. Ships specially constructed in the 1970s to carry containers in cellular sections of the hold could carry between 1,000 and 2,500 teus.
The third generation ships were built to the maximum size that could be accommodated by the Panama Canal, an important throughway on global shipping routes. Built in the 1980s, these ships, called Panamax vessels, could carry between three and four thousand teus. Subsequent generations—the Post Panamax vessels of the 1990s (4,000–5,000 teus) and the Post Panamax Plus ships built between 2000 and 2005 (5,000–8,000 teus)—are too large to travel through the Panama Canal. With the increasing volume of global shipping during this period, other ocean routes became more important, especially those connecting Asian ports with the U.S. West Coast. However, as containerships increased in size, the number of ports worldwide that could accommodate them also decreased.
The Emma Mærsk represents the sixth generation of containership, also called the New Panamax class, because it will be able to travel through the new Panama Canal after it opens around 2014. The vessel, with a capacity of 11,000 teus, is the first to be launched in Maersk’s PS-class. The ship has a waste heat recovery system, which uses exhaust gasses to generate some of the electricity needed aboard the vessel. Its hull is also covered with silicone-based paint, which improves fuel efficiency. The Emma Mærsk entered service on the Europe to Asia route in 2006.
date made
2007
ship launched
2006
late wife of founder and CEO of the company
Maersk, Emma
ship's namesake
Maersk, Emma
built the ship
Odense Steel Shipyard
maker
Modelos Navales Riera, S.L.
ID Number
2008.0039.01
catalog number
2008.0039.01
accession number
2008.0039
This scale model of the fishing vessel Alaska Ocean was custom-built for the Smithsonian by Erik A. R. Ronnberg Jr., at his shop in Rockport, Massachusetts.
Description
This scale model of the fishing vessel Alaska Ocean was custom-built for the Smithsonian by Erik A. R. Ronnberg Jr., at his shop in Rockport, Massachusetts. The starboard hull is cut away to reveal the factory where workers process tons of fish into blocks of frozen fillets, minced fish, and surimi (used in making imitation crab meat and other food products). The cutaway also shows the laboratory where fish products are tested, the freezer hold, a stateroom, and the galley. On the weather (top) deck, the model features all of the deck machinery, the trawling equipment, and the vessel’s rigging. A net full of fish is shown being emptied into one of the bins on the factory floor below.
Ronnberg spent about 27 months building the model, and estimates he spent 5,500 hours getting every detail right. While he built the wooden hull according to design drawings provided by naval architect Guido Perla of Seattle, he had to make his own drawings and patterns to craft the machinery and equipment, most of which are cast in metal. Ronnberg used cheesecloth and tulle to make the net and spent untold hours fashioning the chafing gear out of acrylic yarn, which he knotted in bunches before separating the strands by hand.
He studied photographs and films of the actual vessel at sea, and made detailed figures of people dressed in appropriate working gear in the factory, on the deck, in the fish hold, in the galley, and on the bridge. The model is populated with 125 figures, 1,200 individual fish, and several masses of fish in the cod end of the net. Everything on the model is painted by hand. The scale is 3/16th inch = 1 foot.
The Alaska Ocean itself is a 376-foot-long vessel in the Seattle-based catcher-processor fleet. Workers catch, process, package, and freeze groundfish—mostly pollock and Pacific whiting—in the Bering Sea and in the waters off the coast of the Pacific Northwest. The vessel can harvest about 325 metric tons of fish per day and can freeze over 250,000 pounds of fish product daily.
The idea to build the Alaska Ocean began in the late 1980s. Jeff Hendricks, a fisherman from Anacortes, Washington, who owned and operated a fleet of boats in partnership with a Japanese company, decided to “Americanize” his operations. This was in advance of the American Fisheries Act of 1998, which sought to increase American ownership in the fleet by requiring that vessels be American-built, owned, and operated. Although Hendricks sought bids from several American shipyards for his new venture, there were none at the time that could handle the scope of the vessel he envisioned. Eventually, he worked with a shipbuilder in Norway to expand and rebuild an American oil supply vessel. The Alaska Ocean arrived in Anacortes in the summer of 1990 and began fishing that fall with a largely local crew. It remains in the fleet and, as of 2008, is owned and operated by Glacier Fish Company.
Because catcher-processors are so efficient, their operations are highly regulated to prevent overfishing. A harvest quota is determined by the National Marine Fisheries Service and members of the Pollock Conservation Cooperative, a group of catcher-processors including the Alaska Ocean, divide up the quota amongst themselves. This self-regulating measure ends what is often called the "race for fish," and results in more careful, less wasteful fishing.
Independent scientific observers also travel aboard every vessel in the fleet, monitoring the trawling and empyting operations. They record all by-catch, the term for fish caught in the net other than the target species. There are hard limits on allowable by-catch for certain species, and because the data are computed, reported, and shared for the fleet as a whole, individual vessels are motivated to monitor the by-catch and make adjustments.
date made
2009
ID Number
2009.0080.01
accession number
2009.0080
catalog number
2009.0080.01

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