Living on Karst
A Reference Guide for Landowners in Limestone Regions
Produced by the Cave Conservancy of the Virginias
June 1997, Carol Zokaites, editor
This publication is a result of the combined efforts of many individuals. Terrie Brown, with the Virginia Karst Project provided editing support and technical assistance. George Wills provided the illustrations. Joe Zokaites did the computer graphics. Several members of the Cave Conservancy of the Virginias helped with content selection, editing, and proofreading. Wm. K. Jones is the photographer for the cover photograph.
© Copyright 1997, Cave Conservancy of the Virginias
Cave Conservancy of the Virgiinias
The residents of karst areas need to be aware of how day-to-day activities affect the groundwater and fragile ecosystems in their karst regions. The Cave Conservancy of the Virginias recognized the need for information about karst resources and produced this guide. The Cave Conservancy, established in 1980, has been chartered to protect karst in Virginia and West Virginia. The Cave Conservancy has dedicated its efforts towards the conservation of the over 5,000 wild caves found in the Virginias. The Cave Conservancy has directed conservation work toward the protection of all cave resources, including habitats for endangered species, cave watersheds and springs, and important recreational caves. Education of the public about caves and cave resources is a primary goal of the Cave Conservancy. This guide is foreseen to play a major role in assisting landowners to become more aware of the significance of living in a karst environment. This guide will be helpful to homeowners, farmers, cave entrance owners, business people, and anyone who lives, works, or plays in karst areas. Additionally, the guide will be useful to educators, developers, park managers, watershed and conservation groups. Karst is an important resource in your state. Not only does karst contain beautiful features such as fragile cave formations, it also may hold the key to the health of an entire town or city by its links to drinking water. The Cave Conservancy board and staff hope that a greater understanding of karst resources will come by reviewing this guide.
Karst is defined as a landscape with topographic depressions such as sinkholes and caves, caused by underground solution of limestone bedrock. This landscape features underground streams and aquifers which supply the wells and springs that communities use for their drinking water. Karst protection requires an understanding of the watershed and the will to protect the natural resources within it.
Everyone lives in a watershed. Even if a home is not next to a stream, it is in a watershed, and common everyday practices can contribute to the overall pollution entering into that water system.
The hollow nature of karst terrain results in a very high pollution potential. Streams and surface runoff entering sinkholes or caves bypass natural filtration through the soil and provide direct conduits for contaminants in karst terrain. Groundwater can travel quite rapidly through these underground networks - up to several miles a day - and contaminants can be transmitted quickly to wells and springs in the vicinity.
Groundwater is an important source of private and public water supplies. However, everyday activities in the source area can contaminate the groundwater on which so many people depend for everyday use. The source area is the land surface that contributes water to an aquifer. It is very important to protect these source areas from detrimental activities.
A watershed is an area of land from which all water drains into a common water body. Rainfall, spring runoff, and groundwater drain from upland areas to a low point or basin, usually a larger stream, river, lake, or bay.
Water enters a karst watershed through both direct and indirect means. Precipitation in the form of rain and snow, which is usually the greatest during January through May, enters the aquifer directly as surface runoff or indirectly as water seeping through the soil and bedrock. Drainage in karst watersheds tends to be three dimensional; flowing laterally across the surface, as well as vertically underground.
Residents of a watershed can protect groundwater by minimizing land disturbances, soil erosion, heavy runoff of storm water, and pollutants. Groundwater is at a much higher risk where watersheds are characterized by overgrazing, high-density development, agricultural or urban runoff, and mismanaged commercial facilities sites.
A land area that includes sinkholes, springs, sinking streams, and caves.
Karst is defined as a landscape with sinkholes, springs, and streams that sink into subsurface caverns. The word "karst" was developed in Europe, where early geologists first studied the nature of groundwater flowing through limestone hills and valleys.
Approximately 10% of the earth's surface (and 20% of the U.S.) is composed of karst; however, approximately 25% of the world's population lives on these areas! The hollow nature of karst terrain results in a very high pollution potential. Streams and surface runoff enter sinkholes and caves, and bypass natural filtration through soil and sediment. Groundwater can travel quite rapidly through these underground networks - up to thousands of feet, or even miles, per day - transmitting contaminants to wells and springs in the vicinity.
In karst areas, the fractured limestone rock formations have been dissolved by flowing groundwater to form cavities, pipes, and conduits. Sinkholes, caves, sinking streams, and springs signal the presence of underground drainage systems in karstlands.
Unless watersheds are protected, these direct connections between the surface and the subsurface can threaten the quality of our drinking water. The safest watersheds are those in which all residents understand the karst landscape and work together to reduce soil erosion, high-density development, agricultural and urban storm water runoff, overgrazing, improper waste disposal, and pollution.
How Karst was Formed
Between 570 million and 320 million years ago, the geographic area now occupied by the eastern United States was predominantly covered by a calm, shallow, tropical sea. The sea was populated by microscopic (and larger) organisms that lived, died, and sank to the bottom of lagoons, or were washed into deeper parts of the basin by storms. Over the eons, the deposits of calcium-rich shells and skeletons solidified into the bedrock that we call limestone (CaCO3), dolomite (CaMg(CO3)2) and gypsum (CaSO4.2H2O). These rocks are soluble in dilute acids. Water becomes slightly acidic when it takes up carbon dioxide while passing through decaying organic debris in the surface soils. The interaction of acidic water with soluble rocks such as limestone produces the characteristic landscape known as karst.
During the Appalachian Orogeny, a series of mountain-building events in the central and eastern U.S., rocks were alternately buried, uplifted, faulted, folded, and fractured. The geologic stresses of mountain-building and subsequent erosion created cracks and fissures in the rock through which rainwater and groundwater entered and actively dissolved the organic limestone. Within the past 10 million years, caves, conduits, and underground drainage systems have been dissolved into this rock by moving water. Surface water and streams are captured by underground channels. These channels convey the water to springs which sustain the water flow, cool temperatures, and aquatic habitats of our rivers.
How Clean is Your Well Water?
Many homeowners believe that the source of their groundwater is miles away, and is naturally protected from surface activities. In reality, water quality monitoring projects in cave country have documented that water often comes directly from the immediate surface. These projects also have found unacceptable levels of bacteria and nutrients in more than half of the private water wells sampled.
Groundwater pollution can originate on your property or on surrounding land, potentially resulting in unsafe drinking water supplies for both you and your neighbors. Household wells and springs can be contaminated by many common and seemingly harmless activities such as boarding or pasturing livestock; the over-application of pesticides, herbicides, or fertilizers; storing home heating oil; vehicle maintenance; and on-site sewage disposal.
Protecting Your Well Water
The best means of protecting your groundwater supply is to become familiar with the geology and hydrology of your watershed, and to work diligently with your neighbors to clean up dumps and limit potentially polluting activities in key source water areas.
Your family's health depends on a safe, reliable source of water for drinking, bathing and other needs. Your well is also valuable because it represents a large financial investment.
Local health departments regulate the practice of well abandonment.
Sinkholes are natural drainage points for our groundwater system, so they should never be filled. If a sinkhole is plugged, water will not drain properly, may run off onto adjacent property, and possibly may cause flooding, subsidence, erosion, and pollution. The downstream springs, caves, wells, and streams which receive water from the sinkhole should be identified.
If collapsed sinkholes present a hazard to health and safety, and structures, they often can be stabilized in a way that maintains natural drainage abilities.
Always contact a geologist or engineer experienced in sinkhole repair before attempting to backfill or "seal" a sinkhole.
Do not locate a septic system, feed lot, animal waste lagoon, or storm water basin, near known or suspected sinkholes or caves. If sinkholes appear near such sources of bacterial contamination, use appropriate methods to prevent runoff from these areas from entering the sinkholes. Minimize unnatural or increased drainage into sinkholes.
Do not apply any fertilizer, pesticides, or other chemicals within at least 100 feet of a sinkhole. Notify your contractor of the location of all sinkholes.
If you purchase property where trash has already been dumped in sinkholes, consider cleaning them out and restoring vegetation to improve water quality. Check with your local Natural Resources Conservation Service (NRCS) office, Soil and Water Conservation District, utility district, state conservation agency, or US Fish and Wildlife Service office. These groups sometimes have funding to assist with the cost of trash removal in certain watersheds. Volunteer labor and equipment also can be a big help. Contact local cave clubs and the county litter control officer for support. County public service authorities will sometimes waive the landfill tipping fee for waste materials collected in sinkhole dump clean-ups.
Contact the above agencies for help with these recommendations.
How does this affect my drinking water?
Contaminants entering the groundwater system through sinkholes present a significant health concern, because many wells tap water-filled cavities that are directly connected to the surface. In karstlands, groundwater usually resurfaces at spring and therefore carries the contamination into streams and rivers that also may be used as water supplies.
Sinkholes are natural depressions in the landscape caused by solution and subsidence of earth materials.
Sinkhole Management Protects Property Values
Sinkholes are common throughout about one-quarter of the U.S. Generally sinkholes can be recognized as circular or oval depressions in cultivated fields that may or may not pond standing water after rain events. Sinkholes can also have open bottoms, swallowing entire creeks, springs, or streams, which disappear underground. Both circumstances have one thing in common: caves and/or broken, weathered limestone bedrock near the soil surface. Over thousands of years, flowing groundwater gradually dissolved channels through the limestone. This process created underground caverns of various sizes which can not always support the weight of overlying soil and rock. A sinkhole is created when the surface materials collapse or are dissolved into the underground cavern or cave stream.
Pollution is an undesirable change in the physical, chemical, or biological characteristics of air, land, or water that adversely affects the living conditions for humans or other living organisms.
Water pollution is an overabundance of one or more natural or manmade substances in a body of water. Natural pollutants from soils and bedrock include sulfur, radon, and iron deposits; tannic acid and methane gas come from marshlands. People generate a host of wastes and pollutants that must be dealt with. The U.S. Environmental Protection Agency classify the two major types of manmade pollutants as point source pollution and nonpoint source (NPS) pollution. Point Source Pollution comes from a single source, such as a pipe, culvert, or ditch.
Point source pollution is commonly associated with industrial sites, waste and water outflow pipes, or sewage treatment facilities. The signs of pollution that most people can identify are a strong odor, discharges of multicolored liquids or foam from pipes, algal growth in streams and springs resulting from sewage and other wastes, discharges from smokestacks, and refuse dumps. Point source pollution is generally controlled through state and federal permits which require a minimum level of treatment, and filtration before wastes can be discharged to surface water.
Nonpoint Source (NPS) Pollution presents a more subtle water quality problem because it originates from widely dispersed and diverse sources, not a single outlet. Natural forces such as rain or wind often play a key role in transporting NPS pollutants to streams and aquifers. Examples of NPS pollution include sediment from eroded fields and construction sites, and runoff from backyards and barnyards containing fertilizers, pesticides, and animal wastes. Other examples of NPS pollution are the disposal of waste motor oil, paint thinner, and antifreeze in ditches and storm sewers. This also includes various pollutants attached to particles that wash off streets and parking lots. NPS pollution is even draining chlorinated swimming pools into storm sewers or streams.
Pollution continues to enter streams and groundwater in many subtle ways. NPS Pollution is the major threat to our water supply:
Sediment - Soil particles eroded from the land are carried by rainwater to aquifers, streams, lakes, rivers, and bays. Metals and nutrients, such as phosphorous, attach to sediment and are carried into these water bodies by runoff.
Trash and Organic Debris - Leaves, grass clippings, garbage, and animal waste become part of the runoff entering storm drains, sinkholes, and drainage ways, clogging the underground conduit system.
Nutrients - Fertilizers and animal wastes contain nutrients that are essential to life, but too much can do more harm than good. Nutrients can readily enter runoff and impact water quality.
Chemicals - Man made chemicals can cause severe human and wildlife health problems. The use and disposal of synthetic organic compounds, metals, pesticides, herbicides, household chemicals, paint, solvents, petroleum products, antifreeze, battery acid, and roadway salt should be carefully controlled.
Pathogens - Parasites and bacteria present in human and animal waste are potentially disease-causing microorganisms called pathogens. Septic systems, feed lots, and other polluted runoff can carry pathogens into drinking water supplies.
Erosion occurs when rain or flowing water dislodges and transports soil particles, organic matter, and plant nutrients. Erosion carries away soil resources, reduces soil fertility, and produces thousands of tons of sediment that degrade water quality. Soil and sediment may convey pesticides, harmful bacteria, toxins, and nutrients into surface waters and groundwater. Flooding, habitat destruction, and subsidence increase when eroded soil and debris clog creeks, caves, sinking streams, springs, sinkholes, and drainage ways. To reduce erosion and sedimentation, karst features must be identified and receive special protection from erosion impacts.
Signs of Erosion, Sedimentation and Subsidence include:
Keep Erosion and Sediment Under Control.
Proper land management practices hold soil and nutrients in place and keep sediment, nutrients, and pesticides out of watercourses. Specific best management practices include:
Runoff : The water from rain or melted snow that does not infiltrate the soil but flows over the land surface; precipitation drainage.
Everything that goes into a storm drain, flows out into the groundwater, streams, lakes, or river. In karst areas, sinkholes are nature's storm drains, and the dissolved caves beneath are like nature's piping system. As groundwater moves through the earth, wide open spaces such as caves can carry thousands of gallons of water at a time. This groundwater reemerges on the surface as springs or through wells.
Each time trash, motor oil, anti-freeze, litter, pet waste, fertilizer, yard and garden debris, household chemicals, and road sand and salt are dumped on the ground or washed into storm drains, drinking water, groundwater, and aquatic life are endangered. With every rain or snow these pollutants can be carried into the groundwater/surface water system.
What You Can Do at Home
Roof runoff contains water pollutants such as bird droppings, chemicals from roofing materials, and heavy metals leached from gutter. In an EPA study, roof runoff was one of the most toxic samples collected.
Move down spouts from roof gutters so water discharges onto grassy areas away from foundations and septic systems. This will allow runoff to filter into the soil, where harmful pollutants are broken down by soil organisms.
Reducing Runoff Pollution in Karst Areas
Common Runoff Pollutants
Prevention. Prevention is the best cure. The pollution potential in karst areas is very high. Streams and surface runoff entering sinkholes and storm drains contribute to the recharge of groundwater aquifers, providing direct conduits for contaminants.
Changes in Water Flow. Urban development and growth may cause water quality problems. Stormwater Management, erosion control strategies, and riparian zone management need to be carefully considered. The traditional methods of large-and small-scale development paid little attention to the number of impervious surfaces that were created, such as roofs, sidewalks, streets, and parking lots. Rain runs rapidly off of the these surfaces, turning city streams into raging torrents that cause erosion and damage property.
Sediment. Bare construction sites allow large amounts of fine soil, or sediment, to erode away. Other pollutants often attach to sediment particles, and can be transported far downstream in floods, spreading their toxic effects. The silt clogs drainage ways, caves, and sinkholes, and increases community flooding problems. It prevents native aquatic plants from getting the sunlight they need, and smothers fish eggs and other oxygen-loving creatures that live on stream bottoms.
Increased Pollution. Rains wash toxic chemicals, bacteria, and silt from urban surfaces. Uncontrolled runoff causes sewage treatment plants to overflow directly into waterways. Fertilizers encourage the growth of slimy algae, and oil forms visible scum. Even heat is a pollutant. Runoff from hot pavement can make streams unbearably warm for creatures in the stream.
Basic Runoff Controls
Well-designed runoff controls can be smart, cost-effective, aesthetically pleasing, and for businesses, satisfy local requirements for green spaces. There are many easy and affordable ways to reduce harmful stormwater runoff, make your living or working environment more pleasant, and enhance property values, all at the same time.
Studies conducted on a nationwide scale which included karst regions, indicate that farmland contributes to a general decline in surface water and groundwater quality. Public programs to address agricultural runoff concerns are focussed on the largest commercial feed lots and dairy operations, but small, independent livestock producers and farmers also can cause problems locally (and downstream). By limiting overgrazing and restricting livestock access to streams, farmers can conserve valuable soil fertility and minimize the amount of sediment and nutrients introduced into he watershed.
Soil erosion occurs when soil particles are carried off by water or wind and deposited somewhere else, such as into a stream or at the bottom of a sinkhole. Soil particles and pollution are carried by runoff - water that does not soak into the ground, but flows over the surface and runs to another area, such as into storm drains, sinkholes, or streams. Controlling erosion and runoff takes a dedicated effort, but will significantly reduce water pollution and protect and save the soil.
Signs of Erosion and Runoff
Good Reasons to Control Erosion and Runoff
Landscapes to Control Erosion and Runoff
Plan ahead to avoid drainage and erosion problems, and minimize ground disturbance, and plant a vigorous ground cover to reduce erosion and increase water penetration into the soil on the slope.
Pesticides- insecticides, herbicides, rodenticide, and fungicides - are chemicals widely used by farmers, foresters, exterminators, and homeowners to kill harmful insects and weeds, to increase crop and timber harvests, and to prevent the spread of plant, animal, and human parasites and diseases.
Although targeted at pests, certain pesticides inadvertently can harm nontarget organisms - stream insects, fish, wildlife, domestic animals, and humans. Pesticides can also contaminate the groundwater if not handled carefully. Pesticides can reach groundwater very quickly in karst areas due to the porous rock, sinkholes, springs, and caves.
Taking voluntary action to prevent pesticide contamination of groundwater will help assure the continued availability of pesticides for responsible use. Drinking water is least likely to be contaminated if appropriate management procedures are followed or pesticide wastes are properly disposed.
Understanding the soils on your lawn, garden, or farm and developing natural and appropriate chemical strategies can keep chemicals from leaching into your groundwater. Soil types vary widely within short distances, so several samples should be collected and analyzed in order to fully characterize the soils. Contact your county Cooperative Extension Agent for information on soil sampling and analytical services.
The correct use of pesticides and herbicides, and reducing the amount of pesticides and herbicides used can create a cost savings for the landowners.
Avoid pesticide problems by using integrated pest management practices. Such programs use chemicals only when necessary, in tandem with other practices like crop rotation, timed plantings, and appropriate growing conditions, to protect crops from weeds, insects, or diseases.
Pesticide Handling Rules
Read and follow the label carefully.
Buy only the quantity needed.
Testing the Soil
BMPs - Best Management Practices should be the basis for determining fertilizer and nutrient practices.
BMPs for Lawns and Gardens
BMPs for Agricultural Enterprises
Do You Know?
To most of us, septic systems are " out-of-sight" and "out-of-mind." Homeowners do not often realize that proper operation and maintenance of septic systems can have a significant impact on how well the systems work and how long they last. In most communities, septic system maintenance is the sole responsibility of the homeowner.
Failing Septic Systems
When a septic system fails, inadequately treated sewage can reach the groundwater. Bacteria and viruses from human waste can cause serious diseases including dysentery, hepatitis, and typhoid fever. Many outbreaks of these and other diseases have been traced back to contaminated drinking water. Nitrate and phosphate from domestic wastewater can cause excessive algae growth in springs and streams and impair aquatic life. Nitrate is also the cause of methemoglobinemia, or blue baby syndrome, a condition that prevents the normal uptake of oxygen in the blood of young babies.
The U.S. Environmental Protection Agency and other researchers have identified failing septic systems as a major source of groundwater pollution in karst areas. Many of these failures are attributed to the presence of karst bedrock, old systems with primitive designs, and poor maintenance. The health of your septic system - and your neighbor's - is an important concern for any community seeking to protect groundwater quality, prevent expensive surface damage, and maintain property values.
Septic Systems in Karst Areas
Septic System Maintenance Tips
Have your tank inspected annually and pumped out every 3 to 5 years by a licensed, professional septic contractor. This is probably the single most important and least costly thing you can do to protect your system. Regular inspections and pumping prevents solids build-up in the tank from clogging distribution lines. Remember: the earlier cracks, leaks, and clogs are detected and repaired, the less potential exists for water supply and karst resource pollution.
Work with the local health department and extension service to select the best system for your site.
As stewards of the nation's forest lands and the waters flowing from them, forest landowners have a special responsibility to protect our natural resources.
The Federal Clean Water Act of 1987 requires that proper steps be taken to prevent pollution. Pollution resulting from soil erosion can be controlled by using Best Management Practices (BMPs).
Best Management Practices, (BMPs) are any practical, and usually inexpensive, measures used to reduce water pollution.
Water originating from undisturbed forest land is virtually unpolluted. Land disturbing activities during harvesting and other forestry practices can cause pollution if BMPs are not used. Most states do not regulate timber harvests on private land; therefore, it is up to the landowner to ensure that BMPs are properly installed and maintained.
BMPs and pre-harvest planning are especially important in karst terrains. For specific information on constructing and maintaining BMPs, refer to the LOGGERS BMP HANDBOOK available from your state forestry departments.
BMPs for Timber Harvesting
Maintaining Best Management Practices
For further information, contact your state Department of Forestry.
Many household wastes can be recycled. Aluminum cans and foil, glass, paper, scrap metal, and old appliances can all be recycled. These items can be recycled at recycling centers. Another option is to give items to be recycled to charitable organizations which often collect recyclables to raise funds.
Some Waste Requires Special Management
Used Oil - Approximately 300 million gallons of used oil are produced each year by people changing their own motor oil. Improper disposal of used oil wastes valuable energy and can be hazardous to public health and the environment. On surface water, one pint of oil can spread into a one-acre slick, suffocate plants and wildlife, and contaminate drinking water. Oil dumped on the ground into sinkholes or into landfills may pollute surrounding wells and springs. Recycling is by far the safest and most economical method for disposing of used oil. Simply drain your oil into a closeable container and take it to a local service station or oil collection center. Used oil is collected from service stations and garages by licensed oil processors and refined for reuse as an economical industrial fuel.
Leaves and Yard Waste - In the fall and spring, a significant portion of municipal solid waste is made up of leaves and yard waste. When this material is composted, or allowed to decompose naturally, it produces a valuable soil conditioner and conserves landfill space.
Hazardous Household Wastes
Many common household consumer products have characteristics which make them "hazardous," meaning they are poisonous, flammable, explosive, or corrosive. Such products as pesticides, wood stains, polishes, paint thinners and strippers, antifreeze, and batteries have been linked to serious health and environmental problems.
What can we do with these materials?
First of all, each of us must accept responsibility for the safe use and disposal of household products. We can reduce the quantity of hazardous chemicals we use by becoming informed consumers.
Conservation can be defined as:
Clean water may be cheap and plentiful now, however, it may not be that way in the future. This valuable resource must be conserved and protected
Water conservation can lead to substantial savings in sewer, energy, and water bills. For homeowners with septic systems, conserving water reduces wear and tear on the system, and less energy is required for pumping well water. The amount of water now available on the planet earth is basically the same as it has been for millions of years. The average household uses 250 gallons of this water every day. Consumption could be decreased by 15-20% without major discomfort or expense. Conservative water use habits should be encouraged and promoted throughout your watershed.
Facts about the Earth's Water
Making a Difference in the Community
Making a Difference at Home
The Legal Aspects of Cave Ownership
Twenty-two states (including Virginia and West Virginia), Puerto Rico, and the Cherokee Nation currently have laws pertaining to the protection of caves. These laws cover a variety of topics ranging from definitions, protections of features, permits for excavation and scientific investigation, vandalism, and liability. Most state cave laws state that it is illegal to remove or damage anything from a cave, including rocks, formations, animals, or organisms. For further information on state cave laws, technical services, and management assistance contact your state natural resource management and conservation agencies.
Most state cave protection laws expressly limit the landowners' liability for scientific and recreational activities associated with caves. The West Virginia law reads: "Neither the owner of a cave nor his authorized agents acting within the scope of their authority are liable for injuries sustained by any person using such features for recreational or scientific purpose if the prior consent of the owner has been obtained and if no charge has been made for the use of such features."
Where to Go for Help
Many organizations are dedicated to caving and cave conservation.
Virginia Cave Board The Virginia Cave Protection Act provides for an advisory Cave Board. The Virginia Cave Board is administered by the Department of Conservation and Recreation and is active in environmental education and conservation of caves and karst. Please contact the Virginia Department of Conservation and Recreation for further information.
Cave Conservancy of the Virginias (CCV) The CCV is dedicated to the conservation of wild caves, caverns, and karst areas in the Virginia and West Virginia area. Please contact: Cave Conservancy of the Virginias, P.O. Box 7067, Richmond, Va. 23221.
Cave Registry Program The Virginia and West Virginia Chapters of The Nature Conservancy maintain a cave registry program to encourage landowners to protect, voluntarily, the important caves or karst features on their land. The registry recognizes the value and beauty of these privately owned caves and honors those owners who volunteer to protect them. For more information, contact The Nature Conservancy Field Office in your state.
The Nature Conservancy (TNC) The Nature Conservancy is a national conservation organization committed to preserving natural diversity. The Conservancy is a private, nonprofit group with field offices in all 50 states. The Nature Conservancy Virginia Chapter, 1233-A Cedars Ct., Charlottesville, VA 22908. (804-295-6106). The Nature Conservancy West Virginia Chapter, 723 Kanawha Blvd. East, Suite 500, Charleston, WV 25301. (304-345-4350).
National Speleological Society (NSS) The NSS is a nationwide nonprofit organization dedicated to the study, exploration, and conservation of caves and karst environments. For more information, contact: The NSS, 2813 Cave Ave., Huntsville, AL 35810.
American Cave Conservation Association (ACCA) The ACCA provides educational programs to increase understanding of pollution problems and their solutions in karstlands. Please contact David Foster, ACCA, P.O. Box 409, Horse Cave, KY 42749, for further information.
Caves can contain unique and fragile archaeological, historical, paleontolo-gical, biological, geological, hydrological and economic resources. Each of these aspects can require specialized management and protection techniques.
As a landowner in a karst region, you may know that your property could be an important piece of a much larger underground drainage puzzle. If your land has a cave entrance, you are the caretaker of a very special natural resource. Caves and the karst environment surrounding them are hydrologically connected (through groundwater and surface water) and may contain unusual or rare species of plants or animals. Protecting the cave and karst environment is the only way to ensure good groundwater quality in your area. Landowners have several voluntary options available to help conserve these fragile environments for future generations.
A landowner may have the opportunity to "register" a significant cave with a conservation organization. The registry agreement is not a legal document, but merely the owner's written acknowledgment of the significance of the cave, and an expression of willingness to protect the site. The landowner usually receives a commemorative plaque or photo for being a registry participant.
Management Lease or Agreement Management agreements are legal contracts between landowners and conservation organizations that state that the cave and surrounding land will be managed in a certain manner for a specified period. The landowner may turn over management responsibilities to a conservation group but retains ownership of the entire property.
A conservation easement can be offered to a landowner by a conservation organization to limit certain uses of the property. Easements are very flexible and may be tailored to meet the individual circumstances. An easement is a permanent restriction on the use of the property and is recorded with the land records held by the county registrar of deeds or titles. By granting a conservation easement, a landowner is giving up unused property rights of some economic value, and may be able to claim a charitable contribution on federal tax returns and reduce capital gains, local real estate, and inheritance taxes.
A landowner may have the option of selling a portion of his/her property to a conservation organization in the business of preserving, protecting, and owning preserves. There are many ways in which an owner can sell all or part of his/herproperty. Some of these options may allow a tax deduction; others may allow the owner life-long rights to remain a resident on the property.
Sharing the Costs
Government agencies and public and private organizations can help share the cost of some karst management or karst protection programs.
Transferable Development Rights
The concept that a property owner's "rights" to develop a site can be voluntarily given up or sold to a local jurisdiction is being tested in some rapidly growing parts of the country. The City of Virginia Beach, VA, for example, is seeking to protect valuable wetlands, farmland, and water quality by offering a financial solution to farmers challenged by rising land values, taxes, and urban sprawl. Contact your regional planning commission to find out if these types of programs are offered in your area.
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This material is not to be sold. "Living on Karst" is distributed, in association with the Cave Conservancy Foundation, by the Cave Conservancy of the Virginias for the purpose of public education. The contents are intended to be of general education in nature and should not be considered as technical advice or direction for correcting existing problems. Where appropriate, technical consultation should be obtained. Distribution of "Living on Karst" outside of Virginia and West Virginia is with the support of the Cave Conservancy Foundation. © Cave Conservancy of the Virginias 2000. All Rights Reserved. All Proprietary rights are reserved by the photographers.