Study on the effects of lead from small industry of battery recycling on environment and children's health.
- Author:
Yiqun WU
1
;
Qingxiao HUANG
;
Xiaorong ZHOU
;
Gang HU
;
Zubing WANG
;
Hongmeng LI
;
Renliang BAO
;
Huifang YAN
;
Chunlin LI
;
Libin WU
;
Fengsheng HE
Author Information
- Publication Type:Journal Article
- MeSH: Air Pollutants; analysis; Child; Child Development; drug effects; Child, Preschool; China; Crops, Agricultural; chemistry; Environmental Monitoring; methods; Environmental Pollution; adverse effects; analysis; Female; Health Status; Humans; Industrial Waste; adverse effects; analysis; Lead; adverse effects; blood; Male; Soil Pollutants; analysis; Suburban Health; standards; Urban Health; standards
- From: Chinese Journal of Epidemiology 2002;23(3):167-171
- CountryChina
- Language:Chinese
-
Abstract:
OBJECTIVEIn order to minimize lead pollution and to protect the identified individuals with high blood lead level from lead contamination, an epidemiological study was carried on children living around the village and township-owned lead industries in Tianying town.
METHODSEnvironmental monitoring: lead levels in air, soil, drinking water and crops were measured. Biological monitoring: 959 children aged 5 - 12 years were selected from villages where the lead smelters located near the residential areas and the battery disassembling was done in some families. The control children (207 pupils) were from other villages without lead exposure. Blood lead, ZnPP and teeth lead were determined. Height, weight and head circle of children and IQ scores were measured.
RESULTSThe environment was seriously polluted. The average lead concentrations in air and soils were 8.5 times and 10 times of the MACs (national health standard) respectively. Eighty-five per cent the air samples with lead concentrations higher than the national health standard. Local crops and wheat at farmers' home were also contaminated by lead dust, with. Lead content being 24 times higher than the standard. The mean blood lead and ZnPP levels of children lived in the polluted areas were 496 microgram/L and 9.41 microgram/g Hb respectively. The lead exposure caused adverse effects on children's IQ and physical development.
CONCLUSIONIt is necessary to remove and reduce currently active sources of lead pollution in the community and to increase public awareness of potential health effects of lead exposure.