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Environmental quality is a public good. This means that it has characteristics making it unprofitable for the private sector to provide at socially optimal levels. A role of government can be to employ various policy instruments to promote the "production" of environmental quality. The policy instruments that can be used to provide incentives range from fully voluntary to regulatory and include:
U.S. conservation and environmental programs rely heavily
on these instruments. This table
summarizes the details of public policy
tools available to
address environmental effects of agriculture.
Education
Education is a broad category of instruments aimed
at developing an information base and improving conservation
practices and program delivery. Research and data development
provides information on the economic, agronomic, and
environmental performance of production and conservation
practices. Extension and technical assistance transfer
this information to farmers through education materials,
demonstration projects, and face-to-face contact. In
USDA, these activities are undertaken by the Agricultural
Research Service (ARS); Cooperative
State Research, Education, and Extension Service; Economic
Research Service; Agricultural
Marketing Service; Forest
Service; and Natural
Resources Conservation Service.
Education by itself cannot be considered a strong tool for protecting environmental quality through conservation. The principle reason is that most of the environmental benefits occur off the farm. Education is more effective for improving productivity on the farm because the farmer can realize an economic gain. Education can, however, be an effective tool for improving environmental quality under certain conditions:
- The actions that improve environmental quality
also increase profitability,
- Producers have strong altruistic or stewardship
motives, and/or
- The onfarm costs of environmental impairments are
shown to be sufficiently large.
For example, conservation tillage increases net returns for some producers while reducing soil erosion and improving water quality. Other practices that can increase profitability and environmental quality include nutrient management and irrigation water management. Practices that improve environmental quality without boosting profits, such as filter strips and enhanced wildlife habitat, would be less likely to be adopted voluntarily without financial assistance.
Education's greatest value is as a component of an environmental improvement policy that relies on other tools such as financial incentives and direct regulation. One of the lessons learned from USDA's Area Studies Project is that education influences which conservation practices a farmer adopts in order to meet the requirements of program provisions such as conservation compliance. By providing the information producers need to implement existing and new practices efficiently and also information about a producer's pollution contributions, overall pollution control can be attained at lower cost. USDA coordinates technical assistance with financial incentives it provides for implementing conservation practices through programs such as Environmental
Quality Incentive Program, Conservation Security Program,
and Conservation Reserve Program. USDA also provides technical assistance to help farmers comply with Highly Erodible Land and Wetland Conservation Compliance Provisions and
environmental regulations such as the Clean Water Act.
Government Labeling Standards
for Private Goods
Government labeling standards for private goods help
create efficient private markets for goods produced with
environmentally sound practices. National certification
standards increase the informational value associated
with specialized labels (e.g., labels for organic produce
or other "eco-labels"). If enough consumers are willing
to pay more for products grown in an "environmentally
friendly" manner, then more producers will switch to
these production practices. Participation is voluntary,
but producers must meet minimum standards to use specific
labels. USDA recently set uniform national standards
defining the term "organic" for
both bulk and processed products.
Financial Incentives
Financial incentive-based policies provide positive
monetary incentives (payments to farmers) designed to
encourage environmentally beneficial activities, or negative
incentives (taxes farmers pay) designed to discourage
environmentally harmful activities. Ideally, incentives
would be based on environmental outcomes. For example,
financial assistance for an erosion control practice
could be based on the amount that erosion is reduced.
Such performance-based incentives are the most economically
efficient. However, because of difficulties in measuring
environmental outcomes from conservation and production
practices, incentives are almost always based on specific
practices. Both positive and negative incentives create
an opportunity cost of engaging in environmentally harmful
activities. Therefore, both can be designed to produce
an identical environmental outcome, though the distribution
of economic welfare between farmers and taxpayers will
differ for each approach. In practice, only positive
incentives have been used by Federal conservation programs
to induce the voluntary adoption of conservation practices.
- Cost-share/incentive payments
pay farmers for voluntarily adopting and implementing
desirable conservation practices or land uses. Cost-share
payments are typically a percentage of the cost of
the practices (usually 50 to 75 percent for USDA financial
incentive programs), and are generally used for structural
practices, such as terraces or vegetative buffer strips.
Incentive payments are not necessarily based on costs,
but are set at a level necessary to get farmers to
adopt a practice. Typically, incentive payments are
used to encourage management practices such as nutrient
management, conservation tillage, or integrated pest
management. In some programs, incentive payments are
used to purchase easements that reduce pressure to
convert farmland to less desirable uses. Cost sharing
and incentive payments are available to farmers through
USDA's Environmental
Quality Incentives Program (EQIP), Conservation
Security Program (CSP), Grasslands
Reserve Program (GRP), and Wildlife
Habitat Incentive Program (WHIP). The Farm
and Ranch Lands Protection Program (FRPP) provides
matching funds for the purchase of development rights
to keep productive cropland and rangeland in agricultural
uses.
- Land retirement or rental
payments are made to farmers for voluntarily retiring
land from production. Current USDA land retirement
programs include the Conservation
Reserve Program (CRP), and the Wetlands
Reserve Program (WRP). Land retirement payments
are generally more expensive on a per-acre basis than
payments for conservation practices on working lands,
but can produce large environmental benefits that are
generally long-term. Land retirement may therefore
be most effective when any type of crop production
is generally incompatible with environmental goals.
- Environmental taxes are per-unit charges for actions contributing to environmental degradation. Charges may be associated with emissions (such as a fixed dollar value per pound of soil lost) or with input use (such as a tax on fertilizer). Environmental taxes are not currently being used in Federal conservation programs, but are being used in some States and in other countries.
- Environmental
credit trading is an approach for reducing pollution
discharges that uses market forces to allocate pollution
control costs effectively between different pollution
sources. Traditional pollution control programs often
require individual sources of pollution to meet a
particular discharge limit, or to install a specific
type of pollution control technology. Because individual
pollution sources are not the same, the cost each
one faces in meeting similar discharge goals is often
very different. In a "typical: credit trading program
a regulatory agency issues abatement "credits: to
all regulated dischargers. The total number of credits
is equal to a discharge cap set to achieve an environmental
quality goal. A discharger is required to have enough
abatement "credits" to cover what it discharges
over the course of a year. If a firm does not have
enough credits to cover its discharges, it must either
purchase credits from other firms, or reduce excess
emissions. By allowing the trading of credits, low
cost firms may find it to their advantage to reduce
emissions below their allowances and sell the excess
credits. High cost firms will try to purchase credits
from low cost firms as long as the price of a credit
is less than the marginal cost of pollution control.
Society benefits because pollution reduction goals
are achieved at a lower total cost than if all dischargers
were required to actually reduce their own discharges.
Agriculture is generally believed to be able to reduce
pollution at a lower cost than most sources typically
regulated by U.S. pollution control laws (factories and
municipal water treatment plants, or point sources)
for those pollutants common to both, such as nutrients.
Farmers might be allowed to participate in a trading
program in order to provide a source of "cheap" credits
that point sources can purchase to meet their discharge
requirements. For example, farmers might produce nitrogen
credits by reducing nitrogen runoff using a comprehensive
nutrient management plan. If point sources are willing
to pay more for emissions credits than it costs farmers
to produce them (by cutting nutrient loss in this case)
then a trade can be made that allows farmers to benefit
financially. Point sources also benefit because they
pay less for pollution control than if they had to do
it themselves. Farmers would continue receiving these
payments for as long as they maintained the practices.
A major challenge for agriculture participating in trading
programs is the accurate measurement of pollution abatement
(needed to assign credits) associated with implementing
conservation practices. For a more detailed discussion
of trading, see EPA's Water
Quality Trading Assessment Handbook.
Compliance
Mechanisms
Compliance mechanisms require
a basic level of environmental compliance as a condition
of eligibility for other agriculture programs. This tool
shares characteristics with both government standards
for private goods/actions and economic incentives. It
is similar to the former in that the government establishes
a set of approved practices, except that here compliance
is linked to a direct economic payment. Because existing
programs are used for leverage, compliance mechanisms
require no new budget outlay for producer payments, although
considerable technical assistance is needed to develop
conservation compliance plans. Enacted at a time when
farm income support programs were more closely tied to
production, compliance mechanisms were used to remove
apparent inconsistencies between signals for more intensive
production (from the income support programs) and conservation
programs. Existing compliance mechanisms include the Wetland
Conservation (Swampbuster) and Highly
Erodible Land Conservation (Sodbuster and Conservation
Compliance) provisions.
Regulatory Requirements
Regulatory requirements lie
at the other end of the policy spectrum from voluntary
participation. Rather than attempting to facilitate or
encourage improved environmental performance, policymakers
can simply require it. Regulations can ban the use of
a particular input or practice deemed a significant threat
to public safety or the environment, or can require the
use of a beneficial practice. The ban on the production
and application of the chemical DDT (through the Federal
Insecticide, Fungicide, and Rodenticide Act) is an example
of the former. The Clean Water Act regulations requiring
the implementation of a Comprehensive Nutrient Management
Plan by concentrated animal feeding operations (CAFOs)
is an example of the latter. Regulatory policies that
can affect agriculture include the Coastal
Zone Management Act Reauthorization Amendments (for
polluted runoff). the Clean
Water Act (for polluted runoff), the Federal
Insecticide, Fungicide, and Rodenticide Act (for
pesticide use), the Clean
Air Act (for airborne particulates), and the Endangered
Species Act (for wildlife habitat).
Application of Policy Instruments to U.S. Conservation
Problems
A taxonomy of policy instruments illustrates
their application to U.S. agricultural conservation issues.
Three broad groupings organize the instruments: involuntary
measures that are, to varying degrees, coercive; voluntary
measures providing varying amounts of financial incentive;
and facilitative measures that rely primarily on information.
Instruments are arrayed from left to right in the chart
in order of decreasing level of direct control the
instrument has on producer decisions. In other words,
the more closely prescribed the producer actions, the
farther left a particular instrument falls on the continuum.
| Matrix of
Federal agricultural conservation/environmental
policy instruments and problems |
| |
Participation: |
| Involuntary |
Voluntary |
Facilitative |
| Regulation |
Conser- vation compliance |
Taxes |
Land retire- ment |
Cost sharing |
Incentive pay- ments |
Trading, banking, bonding* |
Education, technical assistance |
| Problem: |
Instrument |
| Erosion: soil productivity |
|
Sodbuster/ compliance
(1985) |
|
Soil Bank (1956-60) CRP
(1985) |
ACP (1936-96) EQIP (1996) |
CSP (2002)
EQIP (1996) |
|
CTA (1936)
CE (1914) |
| Erosion: sediment- ation |
CZARA (1990) |
Sodbuster/ compliance (1990) |
|
CRP (1990) |
ACP (1936-96) EQIP
(1996) |
WQIP (1990-96)
EQIP (1996)
CSP (2002) |
|
CTA (1936)
CE (1914) |
| Erosion: airborne dust |
Clean Air Act |
Sodbuster/ compliance (1990) |
|
CRP (1996) |
ACP (1936-96) EQIP
(1996) |
WQIP (1990-96)
EQIP (1996)
CSP (2002) |
|
CTA (1936)
CE (1914) |
| Wetlands |
CWA Section 404 (1972) |
Swamp- buster (1985) |
|
Water Bank (1970-95) CRP (1988)
WRP (1990) EWRP (1993) |
|
|
Mitigation banking (1995) |
CTA (1936)
CE (1914) |
| Water quality: nutrients |
CWA Section 402 (2003) |
|
|
CRP (1996) |
EQIP (1996) |
WQIP (1990-96)
EQIP (1996)
CSP (2002) |
CWA (1990) |
CTA (1936)
CE (1914) |
| Water quality: pesticides |
FIFRA (1947) CZARA (1990) |
|
|
CRP (1996) |
EQIP (1996) |
WQIP (1990-96)
EQIP (1996)
CSP (2002) |
|
CTA (1936)
CE (1914) |
| Wildlife habitat |
ESA (1973) |
|
|
CRP (1996) GRP (2002) |
WHIP (1996) |
EQIP (1996) CSP (2002) |
|
CTA (1936)
CE (1914) |
Acronyms:
ACP—Agricultural
Conservation Program
CEP—Cooperative Extension
CRP—Conservation Reserve
Program
CSP—Conservation Security
Program
CTA—Conservation Technical Assistance
CWA—Clean
Water Act
CZARA—Coastal Zone Act Reauthorization
Amendments
EQIP—Environmental Quality Incentives
Program
ESA—Endangered Species Act
EWRP—Emergency
Wetland Reserve Program
FIFRA—Federal Insecticide,
Fungicide, and Rodenticide Act
WHIP—Wildlife Habitat
Incentives Program
WQIP—Water Quality Improvement
Program
WRP—Wetland Reserve Program
*Trading relies
on regulatory measures to create a market. However,
agriculture's participation is currently voluntary. |
The evolution of environmental concerns is echoed in
the rows of the matrix, with the initial concerns about
soil productivity losses from erosion occurring in the
top rows, and more recent concerns (such as nitrogen
leaching and manure management) appearing in the bottom
rows. The approximate dates that specific policies were
first applied to an environmental concern are indicated
in the body of the matrix. Some of the programs listed
have been phased out or combined with other programs.
For example, the functions of the Agricultural Conservation
Program and the Water Quality Incentive Program were
taken over by EQIP in 1996.
Policymakers have at their
disposal policy instruments that can induce changes
in agricultural practices and technologies that lead
to more sustainable agro-environmental systems. No general
statement can be made about which policy instruments
meet program goals in the most efficient or cost-effective
manner. And within each broad policy tool grouping,
implementation decisions can have significant impacts
on program costs and environmental impacts. In addition,
the characteristics of agriculture's impacts on environmental
resources vary widely across regions and resource bases.
The choice of policy instruments depends on the nature
of the resource issue or problem, the information available
to the administering agency on the linkages between farming
activities and the environmental resources, farm economics,
and societal decisions about who should bear the costs
of providing more sustainable production systems.
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