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Aquatic plant management involves the science and methodologies used to control invasive and non-invasive
aquatic plant Aquatic plants are plants that have adapted to living in aquatic environments (saltwater or freshwater). They are also referred to as hydrophytes or macrophytes to distinguish them from algae and other microphytes. A macrophyte is a plant that ...
species in waterways. Methods used include spraying
herbicide Herbicides (, ), also commonly known as weedkillers, are substances used to control undesired plants, also known as weeds.EPA. February 201Pesticides Industry. Sales and Usage 2006 and 2007: Market Estimates. Summary in press releasMain page fo ...
, biological controls, mechanical removal as well as habitat modification. Preventing the introduction of invasive species is ideal.
Aquaculture Aquaculture (less commonly spelled aquiculture), also known as aquafarming, is the controlled cultivation ("farming") of aquatic organisms such as fish, crustaceans, mollusks, algae and other organisms of value such as aquatic plants (e.g. lot ...
has been a source of exotic and ultimately invasive species introductions such ''
Oreochromis niloticus The Nile tilapia (''Oreochromis niloticus'') is a species of tilapia, a cichlid fish native to the northern half of Africa and the Levante area, including Land of Israel, Israel, and Lebanon. Numerous Introduced species, introduced populations ex ...
''. Aquatic plants released from home fish tanks have also been an issue.


Impact

Aquatic weeds are obviously most economically problematic where humans and water touch each other. Water weeds reduce our capacity for
hydroelectric Hydroelectricity, or hydroelectric power, is electricity generated from hydropower (water power). Hydropower supplies one sixth of the world's electricity, almost 4500 TWh in 2020, which is more than all other renewable sources combined and ...
generation, drinking water supply,
industrial water Water resources are natural resources of water that are potentially useful for humans, for example as a source of drinking water supply or irrigation water. 97% of the water on the Earth is salt water and only three percent is fresh water; slightl ...
supply,
agricultural water Farm water, also known as agricultural water, is water committed for use in the production of food and fibre and collecting for further resources. In the US, some 80% of the fresh water withdrawn from rivers and groundwater is used to produce food ...
supply, and
recreation Recreation is an activity of leisure, leisure being discretionary time. The "need to do something for recreation" is an essential element of human biology and psychology. Recreational activities are often done for enjoyment, amusement, or pleasur ...
al use of water bodies including recreational boating. Some weeds do this by increasing - rather than decreasing - the
evaporation Evaporation is a type of vaporization that occurs on the surface of a liquid as it changes into the gas phase. High concentration of the evaporating substance in the surrounding gas significantly slows down evaporation, such as when humidi ...
loss at the surface. Particular weeds and aquatic insects have a special relationship which makes the plants a source of
insect pest Economic entomology is a field of entomology, which involves the study of insects that benefit or harm humans, domestic animals, and crops. Insects that cause losses are termed as pests. Some species can cause indirect damage by spreading diseases ...
s.


Organizations

In Florida the Florida Fish and Wildlife Conservation Commission (FWC) has an aquatic plant management section. The
State of Washington Washington (), officially the State of Washington, is a state in the Pacific Northwest region of the Western United States. Named for George Washington—the first U.S. president—the state was formed from the western part of the Washington ...
has an Aquatic Plant Management Program. The Aquatic Plant Management Society is an organization in the U.S. and published the ''Journal of Aquatic Plant Management''. The City of Winter Park, Florida has a herbicide program.


Species

Invasive aquatic species include: * Eichhornia crassipes (water hyacinth), invasive outside its native habitat in the Amazon Basin * Hydrilla, invasive in North America *
Limnobium laevigatum ''Limnobium laevigatum'' is a floating aquatic plant, and is a member of the family Hydrocharitaceae. Common names include West Indian spongeplant, South American spongeplant and Amazon or smooth frogbit. This plant was introduced to North Ameri ...
, invasive in the U.S. *
Myriophyllum spicatum ''Myriophyllum spicatum'' (Eurasian watermilfoil or spiked water-milfoil) is native to Europe, Asia, and north Africa, but has a wide geographic and climatic distribution among some 57 countries, extending from northern Canada to South Africa. It ...
, invasive in North America *
Myriophyllum verticillatum ''Myriophyllum verticillatum'', the whorl-leaf watermilfoil or whorled water-milfoil, is a native to much of North America, North Africa, and Eurasia. It closely resembles another native milfoil, called northern water milfoil (''M. sibiricum'') ...
, invasive in North America *
Monochoria vaginalis ''Monochoria vaginalis'' is a species of flowering plant in the water hyacinth family known by several common names, including heartshape false pickerelweed and oval-leafed pondweed. It is native to much of Asia and across many of the Pacific I ...
, invasive outside its native habitat in Asia and the Pacific *
Pistia ''Pistia'' is a genus of aquatic plants in the arum family, Araceae. It is the sole genus in the tribe ''Pistieae'' which reflects its systematic isolation within the family. The single species it comprises, ''Pistia stratiotes'', is often called ...
* Salvinia molesta


Aquatic plant harvesting methods

Harvesting methods Harvesting refers to anthropogenic removal of aquatic plants from their environment. Aquatic plant harvesting is often done to clear waters for navigation and recreation, as well as for the purpose of ridding the environment of invasive plant species. However, this aquatic plant management style can also have negative effects on the environment such as harming non-target plants and animals, increasing turbidity, and potentially spreading invasive plants via fragmentation. There are multiple plant removal methods available depending on the purpose of removal, the habitat of the plant, the animals surrounding the plants, as well as the density, access point, and species of the plant. Plant removal methods consist of: pulling by hand, mechanical cutting, cut and grinding, suction harvesting, rototilling, and hydro-raking. Mechanical cutting is the most common method of aquatic plant harvesting. This is an efficient method that can cover a large area. Removing large amounts of plants from the water can have a positive impact on the daily oxygen levels in shallow aquatic environments. Mechanical cutting has short term effect, which makes it a good method to use with the purpose of harvesting nutrients and promoting regrowth of the plants. However, the equipment used for cutting is expensive, and this method is also nonselective, often damaging non-target plants, habitats, and animals. This method of harvesting has a tendency to remove large portions of macroinvertebrate, semi-aquatic vertebrate, and fish populations. Cutting also allows the possibility of further spreading plants that reproduce via fragmentation. Mechanical cutting is commonly used in heavily infested areas because of its speed and efficiency, however this leaves behind large amounts of dead plants free floating in the environment. Leaving large mats of cut plants in the water can have negative effects on the aquatic environment by providing obstacles for animals, reducing of sunlight for remaining plants, creating build up on shore lines, and poor water quality. Cutting is often performed using harvesters with a sickle-bar cutting blade on the back. Mechanical cutting is often paired with harvesting boats to collect the dead plants, or have a conveyor belt to load cut plants onto the boat. The cut and grind method is a highly efficient method of harvesting with the disposal of dead plants included. This method also mechanically cuts large amounts of plants at a time then proceeds to grind the plants to dispose back into the lake. This method is best for bodies of water with chronic invasive plant problems in which plant disposal must be considered. Grinding plants minimizes the need for any extra boats or disposal methods to manage the cut plants. However, this method contains the same downfalls of mechanical cutting. It is a nonselective, short term solution that can resuspend sediment. Although different from standard cutting, the grinding of the plants still leaves large masses of plant material in the water creating negative effects in the remaining environment. The Rotovating method uses rotating blades to uproot plants from the sediment. Rotovating is more likely to remove the entire plant, including the roots, with an intermediate-term effect on regrowth. This method is effective but requires expensive equipment and has negative effects on the environment. Rotovating is nonselective, and it may spread plants via fragmentation and suspend excess amounts of sediment. Rotovating is an efficient process but requires a separate disposal method. Hydro-raking works similarly to rotovating. A backhoe is used to target the roots and rip the plant out of the sediment, followed by a rake to remove the vegetation. This method works best for thick, difficult plants to remove, and is effective for long-term removal since roots are removed. Hydro-rakings holds the same challenges as rotovating, with the potential to indirectly spread species, damage more plants than necessary, and create turbidity by suspending sediment. Pulling by hand or suction harvesting are diver/snorkeler operated, highly selective methods of removing aquatic plants. Individuals manually pull or vacuum suck the entire plant from the sediment. Vacuum suction removes the entire plant (stem, leaves, roots) including the surrounding sediment from the floor of the aquatic environment. This provides a long-term effect with minimal regrowth of the plants. Manual removal is a slow, inefficient process that is often only performed on small vegetative communities in underdeveloped areas. Suction harvesting requires more technology and is more expensive. Pulling by hand is more cost effective; however, pulling by hand runs the risk of suspending excess sediment, suction harvesting does not have this risk.


See also

* Aquatic ecosystem *
GIS and aquatic science Geographic Information Systems (GIS) has become an integral part of aquatic science and limnology. Water by its very nature is dynamic. Features associated with water are thus ever-changing. To be able to keep up with these changes, technologi ...


References

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Further reading

*A Guide to Aquatic Plants: Identification & Management by David F. Fink, Ecological Services Section, Minnesota Department of Natural Resources, 1997 *Aquatic weeds: the ecology and management of nuisance aquatic vegetation by A. H. Pieterse, Kevin J. Murphy, Oxford University Press, Aug 9, 1990


External links


Identifying and Managing Aquatic Plants
from the Purdue Extension office Pest control Ecological techniques Habitat management equipment and methods Aquatic plants