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Agricultural Operations |
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Hazards and
Solutions |
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Accidental death rates in US agriculture have been consistently near 50
per 100,000 workers for several decades; temporarily disabling accident rates are
estimated at over 5%; and the overall injury and illness rate at nearly 13%(14). The acute safety hazards listed in
Table 1 create a pattern of fatal accidents typified by
the data shown in Table 3.
The following references aid in recognizing and evaluating hazards associated
with agricultural operations in the workplace.
In addition to its unique processes, agriculture is also unlike general
industry socially, economically, psychologically, and geographically. Examples of major
differences include:(8,9)
- The workplace and the residence are co-located. Thus, the hours of work
are as long as necessary, and many of the hazards that affect the producer also affect the
family, including the children(10).
- As self-employers or very small businesses, there is little or no
distinction between management and labor, few legal or pre-selection barriers to entry
such as age, sex or even ability (versus desire), and no employee benefits such as sick
leave, medical insurance, or workers compensation(9).
- The intrinsically "risky" nature of agriculture as a business
coupled with the inability of the farmer to change prices to reflect costs provides
limited incentives to purchase, install, or maintain preventive safety and health controls(9).
- Agriculture is a geographically dispersed industry with many small
"factories" spread over a broad region, inhibiting epidemiologic surveillance or
"recognition" of hazards and the provision of prevention and rehabilitation
services(5,11).
- The psychological stoic self-image of farming as an independent lifestyle
rather than a business further inhibits acceptance of outside preventive services(31).
- Coupled with these characteristics is the recently rapid rate with which
farmers and traditionally farming families are leaving the industry(2,4,12,13).
Ergonomics
- Ergonomic agents in
Table 1 create an array of common chronic musculoskeletal
injuries among agricultural workers(16,17), in addition
to some specific injuries such as "Milker's Knee" among dairy farmers(18) and osteoarthritis of the hip among tractor drivers(19).
- Simple Solutions: Ergonomics for Farm Workers. National Institute for
Occupational Safety and Health (NIOSH) Publication No. 2001-111, (2001, February),
1.52 MB PDF,
53 pages. A 1.7 MB
PDF,
54 pages (Spanish version) is also available. Provides information about
early intervention to prevent injuries. Directed toward growers, safety
specialists, human resources managers or anyone with an interest in having
safe farms.
- Ergonomics.
OSHA Safety and Health Topics Page.
Noise
- Noise is a common hazardous physical agent with perhaps a third of
farmers experiencing time weighted average (TWA) noise above 90 dBA(20), and
several categories of sources in the 100-110 dBA range(8).
Noise induced hearing loss is very common among farmers(21,22).
The elevated incidence of heat stroke is not well studied(23).
Both whole body vibration(24) and segmental vibration(25) are prevalent among farmers; the technology to reduce
whole body vibration is available on newer equipment(26).
- Noise and
Hearing Conservation. OSHA eTool. Provides a comprehensive hazard
assessment, information about selecting protective devices for the
workplace, as well as OSHA requirements.
Respiratory
- A wide range of morbidity and mortality
findings suggests that respiratory diseases from many of the biological and
chemical
agents listed in Table 1 may represent the greatest
health hazard to farmers(35).
- Respiratory
hazards range
from acute to chronic air contaminants. The settings include poultry barns(36,37), swine barns(38,39),
hydrogen sulfide from manure pits(38,40,41), and carbon
dioxide(42) and nitrogen dioxide(43,44) in silo gas.
- Agricultural aerosols can present both
chronic hazards from crystalline free-silica (quartz)(45)
and silicate(46) components of inorganic dusts(45,47), as well as acute hazards from coccidioidomycosis(48), soil-borne fungi(49),
and microbial toxins like endotoxin(50) and aflatoxin(51).
- Inorganic dust is a complex mixture associated with
such non-specific respiratory diseases as atopic asthma, occupational asthma, and
bronchitis(52), as well as the more agricultural specific
diseases called Farmer's Lung and Organic Dust Toxic Syndrome [ODTS](50,52).
- Control of aerosols might include the enclosure and
ventilation of tractors(47), applying moisture to
friable material(50), and respirators(53).
- Control of Organic Dusts From Bedding Choppers in Dairy Barns.
Department of Health and Human Services (DHHS), National Institute for Occupational Safety and Health (NIOSH) Publication No.
97-103, (1997, April). Also available as a 212 KB
PDF,
2 pages.
- Cotton Dust.
OSHA Safety and Health Topics Page.
-
Respiratory Protection. OSHA eTool. Offers expert assistance to
businesses seeking to comply with the new respiratory protection standard
29 CFR 1910.134. Provides information on the development of respirator
cartridge change schedules. Addresses respirator selection, and other
requirements of the standard.
-
Respiratory Protection. OSHA Safety and Health Topics Page.
- Ventilation.
OSHA Safety and Health Topics Page.
Chemicals
- While chemical pesticides and fertilizers can present hazards when
misused, they represent only a narrow spectrum of the occupational risks within
agriculture listed in
Table 1. Reviews of pesticide
toxicities are readily available (e.g. M. Moses:
"Pesticides"(54)), the
industrial hygiene aspects of their use practices levels of exposure and the efficacy of
exposure controls are less accessible. Pesticides can present a hazard to applicators(55,56), to harvesters reentering a sprayed field(57,58), and to rural residents via air, ground water, and
food. Methods to assess exposure include direct methods via dermal patches(55-59), skin washes(59),
and fluorescent tracers(60). Exposure can also be
assessed indirectly via biochemical responses such as a change in cholinesterase activity(57,61,62) and urinary excretion(57,62,63). Guidelines for cholinesterase monitoring and
diagnosis of organophosphorus (OP) poisoning are well established(62).
- Broadly speaking, variations in exposures are unrelated to the particular
chemical being used but do vary with the pesticide formulation and concentration,
application process and equipment, clothing worn, and personal techniques(56).
- Exposure controls include personal protection,
particularly clothing and gloves rather than respirators(56,60),
and engineering/mechanical controls(47,64).
- OSHA's Field Sanitation Standard. OSHA Fact Sheet
No. 92-25,
(1992).
- Occupational Safety. National Center for Farmworker Health, Inc. (NCFH),
189 KB
PDF, 3 pages.
-
Worker Protection Standard for Agricultural Pesticides.
Environmental Protection Agency (EPA), (1993). Provides a table of contents with links
to the entire document.
- EPA: Pesticides - Warning Signs.
Environmental Protection Agency (EPA), Office of Pesticide Programs, (1999, July
6). Provides description of warning sign requirements, including examples of
warning signs in other languages.
Biologicals
- Veterinary chemicals include biologicals and antibiotics. Biologicals are
made from living products such as viruses or bacteria processed to enhance the immunity of
an animal to a specific infectious disease or diseases. The main risk groups are those
involved in livestock production and related veterinary care who administer these products
to animals, including farmers, veterinarians, and their assistants. Hazards associated
with biologicals include accidental inoculation, splashing the product into the eyes or
mucous membrane, and contamination of the broken skin. The result may be an infection,
inflammation, or an allergic reaction. The primary products that have been associated with
occupational illnesses include brucellosis strain 19(65),
Escherichia coli bacterins, Jhone's disease bacterin, erysipelas vaccines, contagious
ecthyma vaccine, and Newcastle disease vaccine(66,67).
- Antibiotics are products derived from (or synthesized) from living
organisms, mainly mold species of the genus streptomyces and include penicillin,
tetracycline, sulfamethazine, erythromycin, and virginiamycin. Exposure can occur to
livestock producers, veterinarians, and feed manufacturers and formulators by direct
contact with antibiotic-containing feeds or via aerosol exposure within livestock
buildings, feed preparation areas on the farm, or feed manufacturing plants.
- Zoonoses are infectious diseases common to animals and humans. At least 24
of the over 150 such diseases known worldwide, are occupational hazards for agricultural
workers in North America(49,69).
The agricultural worker's risk of acquiring a zoonotic infection varies with the type and
species of animal and the geographic location.
- Control of exposure to biologicals should start with good animal handling techniques, facilities(68), and include some
personal protective equipment (PPE).
- Control of these infections in the
production phase depends largely on an awareness of the specific hazards, and good
preventive veterinary care, hazard communication, and medical back-up, especially in cases
where serological monitoring of animals or people may be indicated(49,69).
Industry Specific
Psychological Stress
- Psychological stress in agriculture manifests itself in suicide at a
greater frequency(27), more frequent mental disability(28), and decreased intra-family functionality(29). The effects of stress with seasonal work-cycle peaks,
adverse weather conditions, and machinery breakdowns(30)
interacts with the stoic and independent nature of farmers making them reluctant to seek
professional help(31).
Skin Exposures
- Diseases of the skin are very common in agriculture, may become
disabling, but are rarely life threatening(5,32-34).
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