Boating

Boating is the leisurely activity of travelling by boat, or the recreational use of a boat whether powerboats, sailboats, or man-powered vessels (such as rowing and paddle boats), focused on the travel itself, as well as sports activities, such as fishing or water skiing. It is a popular activity, and there are millions of boaters worldwide.

Contents 1 Types of boats 2 Boating activities 3 Anchoring 4 Safety 4.1 PFD use 4.2 Drowning 4.3 Carbon monoxide 5 Licensing 6 See also 7 References 8 External links

Types of boats

Recreational boats (sometimes called pleasure craft, especially for less sporting activities) fall into several broad categories, and additional subcategories. Broad categories include dinghies (generally under 16 feet powered by sail, small engines, or muscle power), paddlesports boats (kayaks, rowing shells, canoes), runabouts (15-25' powerboats with either outboard, sterndrive, or inboard engines), daysailers (14–25-foot sailboats, frequently with a small auxiliary engine), cruisers (25–65' powerboats with cabins), and cruising and racing sailboats (25–65-foot sailboats with auxiliary engines).

The National Marine Manufacturers Association, the organization that establishes several of the standards that are commonly used in the marine industry in the United States, defines 32 types of boats, demonstrating the diversity of boat types and their specialization. In addition to those standards all boats employ the same basic principles of hydrodynamics.

Boating activities

Boating activities are as varied as the boats and boaters who participate, and new ways of enjoying the water are constantly being discovered. Broad categories include the following:

• Paddlesports include ears(lakes), swiftwater (rivers), and ocean going types, usually covered-cockpit kayaks.
  • Canoes are popular on lakes and rivers due to their carrying capacity and efficiency on the water. They are also easy to portage, or carry overland around obstructions like rapids, or just down to the water from a car or cabin.
  • Kayaks can be found on calm inland waters, whitewater rivers, and along the coasts in the oceans. Known for their maneuverability and seaworthiness, kayaks take many shapes depending on their desired use. Rowing craft are also popular for fishing, as a tender to a larger vessel, or as a competitive sport.
  • Rowing shells are extremely long and narrow, and are intended to convert as much of the rower's muscle power as possible into speed. The ratio of length of waterline to beam has much importance in marine mechanics and design.
  • Row boats or dinghies are oar powered, and generally restricted to protected waters. Rowboats are generally heavy craft compared to other has
• Sailing can be either competitive, as in collegiate dinghy racing, or purely recreational as when sailing on a lake with family or friends.
  • Small sailboats are commonly made from fiberglass, and will have wood, aluminum, or carbon-fiber spars, and generally a sloop rig (two sails: a mainsail and a jib, commonly include 3rd sail the spinnaker for going downwind). Racing dinghies and skiffs tend to be lighter, have more sail area, and may use a trapeze to allow one or both crewmembers to suspend themselves over the water for additional stability.
  • Daysailers tend to be wider across the beam and have greater accommodation space at the expense of speed.
  • Cruising sailboats have more width, but performance climbs as they tend to be much longer starting Length Over All of at least 25 feet (six metres) re-balancing the dynamic ratio between length of waterline (aiding speed) and beam width (adding cargo and people space).
• Freshwater fishing boats account for approximately 1/3 of all registered boats in the U.S., and most all other types of boats end up being used as fishing boats on occasion. The boating industry has developed freshwater fishing boat designs that are species-specific to allow anglers the greatest advantage when fishing for walleye, salmon, trout, bass, etcetera, as well as generic fishing craft.

• Watersport Boats or skiboats are high-powered Go-Fast boats (specialized towboats in fact) is designed for activities where a participant is towed behind the boat such as waterskiing and parasailing.
  • Variations on the ubiqutous waterski include wakeboards, water-skiing, kneeboarding, inflatable towables, and wake surfing. To some degree, the nature of these boating activities has an impact on boat design. Waterski boats are intended to hold a precise course at an accurate speed with a flat wake for slalom skiing runs. Wakeboard boats run at slower speeds, and have various methods including ballast and negative lift foils to force the stern in the water, thereby creating a large and "jumpable" wake.
  • Saltwater fishing boats vary widely in length and are once again specialized for various species of fish. Flats boats, for example, are used in protected, shallow waters, and have shallow draft. Sportfishing boats range from 25' to 80' or more, and can be powered by large outboard engines or inboard diesels. Fishing boats in colder climates may have more space dedicated to cuddy cabins and wheelhouses, while boats in warmer climates are likely to be entirely open.
  • Cruising boats applies to both power and sailboats, and refers to trips from local weekend passages to lengthy voyages, and is a lifestyle. While faster "express cruisers" can be used for multiple day trips, long voyages generally require a slower displacement boat (trawler) with diesel power and greater stability and efficiency. Cruising sailboats range from 20' to 70' and more, and have easily managed sailplans to allow relatively small crews to sail them long distances. Some cruising sailboats will have two masts (ketch, yawl, or schooner rigs) to further reduce the size of individual sails and make it possible for a couple to handle larger boats. Diesel- (now sometimes electric-) powered Narrowboats are a very popular mode of travel (and accommodation) on the inland waterways of England.
• Racing and Regatta's are common group activities in the sub-culture of boaters owning larger (twenty-five foot plus) small boats and larger Yachts, and are frequently organized around a Yacht club or Marina organization
  • Sailboat racing can be done on conventional family sailboats racing under one of the simpler handicap formulas [1] (PHRF, or Performance Handicap Rating Formula is one such rule), or can be done on specialized boats with virtually no accommodation or compromises for comfort. Racing is generally either one design, where the boats are close to identical, or handicapped where the boats' finishing times are adjusted based on their predicted speed potential. Racing is further broken down into ocean racing, where boats start at one port and race in the ocean and back to the same port or a new destination, or buoy racing where boats race around prescribed courses and return to port at night. Several famous races cross oceans, like the biennial Transpac Race [2] from Los Angeles to Honolulu, or the Newport-Bermuda Race [3] from Newport, Rhode Island to Bermuda. Other races actually circumnavigate the globe, like the Volvo Ocean Race or Vendee Globe race.

Anchoring

Anchoring a boat is essential to recreational boaters by giving them the ability to park their boat in the water. Anchoring is helpful to boaters who fish or swim off of their boat and provides a stable and established site to achieve whatever activity is being done. Anchoring a boat is also critical in emergency situations and is a good safety measure whenever a vessel becomes disabled. There are three types of anchors, the Plow-style, the Fluke-style, and the Mushroom anchor.

• Plow-style is the most effective for most boats especially larger boats (over 26 feet). It receives its holding power by plowing into the bottom sediments using the boats mass to drag it underneath the soil.
• Fluke-style or Danforth anchor is similar to the plow anchor but is more lightweight. This anchor is commonly used on boats smaller than 30 feet but is very effective by using its pointed flukes to bury into the sediment below.
• Mushroom anchors are designed for situations which require a permanent anchor with strong holding power. The weight of a mushroom anchor causes it to be slowly buried under soft sediment, giving significant holding power and are typically used for moorings, buoys, and other permanent anchoring needs. Mushroom anchors are not carried on a boat for use as a temporary or short term anchor. Initially there is no holding power due to the significant amount of time required for the anchor to settle and bury itself in the sediment.

A rope anchor line should be at least seven times longer than the depth of the water in the anchorage. A seven to eight foot chain should also be attached between the rope and the anchor in order to reduce the angle of the pull on the anchor facilitated by the chain sinking and lying on the bottom. This is important because in order for the anchor to be effective, the pull must be at a shallow angle rather than vertically. A vertical pull on the anchor will result in the anchor breaking out of the bottom sediment and is used as a technique to break the anchor's hold allowing the anchor to be raised in order to leave the anchorage.

The anchor should never be dragged behind a boat or dropped at the stern. This could result in the boat being swamped or filled with water. Tie off the anchor to a bow cleat and pull on it to make sure that the knot is secure. After that make sure the vessel is down wind or down current of the anchor. After anchoring it is important to check visual sightings and onshore objects or buoys to let the driver know if his boat is secure by the anchor.

Safety

Since it's a recreational activity, most boating is done in calm protected waters and during good weather. Even so, conditions can change rapidly, and a small vessel can get into life-threatening difficulties. It's important to keep an inventory of safety gear on board every boat, which is prescribed by the U.S. Coast Guard as well as state boating law administrators in the U.S. Depending on the size of the boat and how it is powered, required equipment may include:

• personal flotation devices (PFDs or life jackets) for everyone on board
• a throwable flotation device (in the U.S., a Type IV PFD)
• navigation lights suitable for the type of boat operation
• visual distress signals (VSDs) which are effective both day and night
• sound-making devices including horns and bells
• fire extinguisher(s)
• a copy of the Inland Rules of the Road

Other items might seem obvious but are not actually required by law. They include a flashlight, first aid kit, paddles, whistles, anchor and rope, engine spare parts, bilge pumps, a VHF radio or mobile phone, etc.

In addition to these safety items listed above, the Code of Federal Regulations lists some additional required items that may not fall into the common definition of "safety" items:

• backfire arresters on gasoline-powered vessels
• ventilation systems on gasoline-powered vessels
• plaques which list the penalties associated with pollution due to oil discharge, or dumping trash overboard.
• a marine sanitation system (MSD) which prevents water pollution from sewage

State laws may add to this list of requirements. Most of the differences fall into a few categories:

• laws requiring life jackets to be worn in specific activities or by children
• upgraded life jackets for specific activities or by children
• restrictions on the types of MSDs that are allowed within state borders

PFD use

Recreational boating deaths could be dramatically reduced with increased use of PFDs or life vests. Wear rates in 2003 were around 22.4% [4], although state and federal laws requiring children to wear flotation were more common, and therefore children's wear rates were much higher than those for adults. Relatively few children die in boating accidents; the more likely victim is an adult male in the mid-afternoon in a boat (under 20 feet (6.1 m) length over all) who is not wearing a PFD.

Not surprisingly, that also describes a typical boater under normal conditions.

While various strategies have been devised in the last few decades to increase PFD wear rates, the observed rate has been relatively constant. This has led to the possibility of legislation requiring PFD usage on boats under a specified length when underway.

The percentage of deaths due to drowning has declined (from 80% to 70%) in the last decade for a peculiar reason. Personal watercraft, or PWCs [5], have increased in popularity for the last 15 years, and account for about 70 fatalities per year (2002). However, PWC operators commonly wear PFDs, and therefore have a relatively low incidence of drowning. Trauma, largely due to collisions with other vessels and the shoreline, accounts for 70% of PWC fatalities while drowning accounts for about 30%.

PFD types as defined by the U.S. Coast Guard such as Type I, Type II, Type III, Type IV, and Type V can be found at the U.S. Coast Guard. In the U.S., one PFD MUST be available for everyone on board. Life jacket definitions for Great Britain's Coast Guard can be found here.

Drowning

In the U.S., approximately 700 people die per year as a result of recreational boating accidents. These accidents are tabulated in the B.A.R.D., or Boating Accident Reporting Database [6], which is published each year by the U.S. Coast Guard based on the cumulative records of the National Association of Boating Law Administrators (NASBLA) [7]. Since 1970, when recreational boating deaths peaked at about 1700 per year, the annual rate of fatalities has been declining at a rate of about 2% per year. The majority of these deaths (70%) occur due to drowning, and are frequently associated with small powerboat accidents. Other causes of death include trauma (especially with small powerboats), fire, carbon monoxide poisoning, and hypothermia.

The cause of the reduction of deaths is subject to some debate, but the Federal Boat Safety Act [8] in the 1970s required that boats under 20 feet be equipped with level flotation. This change in boat construction meant that boaters who found themselves in the water next to a swamped boat could climb back into the boat and both reduce their likelihood of drowning, while increasing the size of a search target and reducing hypothermia. Other frequently named causes include improved boater safety education, increased use of life jackets, and improved boating safety gear.

Another potential cause for drowning is the presence of stray electrical power from a boat leaking into the water. This is known as electric shock drowning. Metal surfaces of a boat leaking power into the water can create zones of high-energy potential. Stray current entering salt water is less of a problem than the same situation in fresh water. Salt water is a good conductor and it carries current away to ground quickly. Fresh water is a poor conductor and when alternating current forms an electrical potential near a boat, the current can paralyze a swimmer. Stray electrical current has caused many drownings, but post-mortem examinations will not link this problem to the death. The problem can be reduced by prohibiting swimming near boats connected to shore power and ensuring marinas comply with National Fire Protection Association Standard 303 for marinas.

Carbon monoxide

In the early 2000s, several high-profile deaths due to carbon monoxide poisoning (CO) led to increased scrutiny of boating habits (especially the practice of towing participants immediately behind a boat, known as "teak surfing" or "platform towing") and the implementation of various warning placards to educate boaters of the hazards arising from these activities. Other CO-related deaths were attributed to high concentrations of CO gas from houseboat generator exhaust, where swimmers were able to access an area near the stern of the boats that collected the exhaust. This has led to improved pollution controls on modern generator sets, and changes in the designs of houseboats so that they discharge exhaust gases in a way that they can dissipate. The increased use of CO detectors, especially in boats with enclosed accommodation spaces, and a proper assessment of boat manufacturers, would help reduce the risk of CO poisoning.

Licensing

Depending on the country, boating on coastal waters and inland waters may require a license. Usually, commercially boating on coastal waters almost always requires a license, while recreational boating on coastal waters only requires a license when a certain boat size is exceeded (e.g. a length of 20 meters), or when passenger ships, ferries or tugboats are steered.^[1] Boating on international waters does not require any license, due to the absence of any laws or restrictions in this area. Some of the member states of the United Nations Economic Commission for Europe issues the International Certificate of Competence.^[2]

See also

• Boats
• Messabout
• Pleasure craft
• United States Coast Guard Auxiliary

References

• Doane, Charles J. (2009). The Modern Cruising Sailboat: A Complete Guide to Its Design, Construction and Outfitting. McGraw-Hill. ISBN 978-0-07-147810-6. 

External links

• Boating - Australian boating guides and information.