Assessing toxicity of spent pig litter using a seed germination technique

Abstract The phytotoxicity of spent litter collected from pig pens employing the ‘[pig-on-litter’ system at various times was evaluated using seed germination and root elongation techniques. The percentage seed germination of four plant species (lettuce, Chinese cabbage, tomato and green beans) was not affected by the water extracts of spent litter samples collected in the first 30 weeks of production. Seed germination was significantly retarded by litter extracts from 34 weeks onwards. The percentages of seed germination at the end of the 45 weeks study were 1% for lettuce, 16% for cabbage, 21% for tomato, and 44% for green beans. Compared with seed germination, root elongation was more sensitive to the toxicity of the spent litter. The root lengths of all seedlings except green beans were less than 50% of the control (deionized water) throughout the experiment. The inhibitory effects of spent litter on root elongation increased with the age of the litter. The final root lengths of lettuce, Chinese cabbage and tomato seedlings were 14%, 24% and 28% of the control, respectively. Green beans behaved very differently from the other species; spent litter extracts stimulated root growth throughout the study, except the last week. The elevated concentrations of heavy metals (in particular extractable Cu) and nutrients (especially NH 4 + N) present in spent litter were the main factors responsible for the phytotocicty of the spent litter. The aged spent litter had accumulated more salts, nutrients and heavy metals and imposed more toxic effects on seed germination than did the young spent litter.

[1]  Wun-cheng Wang The use of plant seeds in toxicity tests of phenolic compounds , 1985 .

[2]  J. O’grady,et al.  Copper supplementation of pig diets. The effect of protein level and zinc supplementation on the response to added copper , 1968 .

[3]  Ming Hung Wong,et al.  Effects of roadside soil extracts on seed germination and root elongation of edible crops , 1983 .

[4]  M. de Bertoldi,et al.  Evaluating toxicity of immature compost , 1981 .

[5]  A. D. Bradshaw,et al.  A COMPARISON OF THE TOXICITY OF HEAVY METALS, USING ROOT ELONGATION OF RYE GRASS, LOLIUM PERENNE , 1982 .

[6]  M. Wong Effects of animal manure composts on tree (Acacia confusa) seedling growth , 1985 .

[7]  T. Hernández,et al.  Phytotoxicity due to the agricultural use of urban wastes. Germination experiments , 1992 .

[8]  T. Hernández,et al.  Evaluation of the maturity of municipal waste compost using simple chemical parameters , 1992 .

[9]  G. Gupta,et al.  Toxicity (EC50) comparisons of some animal wastes , 1990 .

[10]  M. Wong,et al.  Utilisation of animal manures and sewage sludges for growing vegetables , 1983 .

[11]  F. Zucconi,et al.  Biological evaluation of compost maturity , 1981 .

[12]  M. T. Baca,et al.  Comparative use of cress seed germination and physiological parameters of Helianthus annuus L. to assess compost maturation , 1990 .

[13]  J. Hin,et al.  Biosignificant content of heavy metals in compost , 1993 .

[14]  S. Workman,et al.  Toxic Effects of Manure, Alfalfa, and Ammonia on Emergence and Growth of Cucumber Seedlings , 1991 .

[15]  J. B. Kenworthy,et al.  Chemical Analysis of Ecological Materials. , 1976 .

[16]  Ming Hung Wong,et al.  The effects of ammonia and ethylene oxide in animal manure and sewage sludge on the seed germination and root elongation of Brassica parachinensis , 1983 .

[17]  L. Vrijmoed,et al.  Effects of Commercial Bacterial Products On Nutrient Transformations of Pig Manure in a Pig-On-Litter System , 1990 .

[18]  Wun-cheng Wang,et al.  Comparative seed germination tests using ten plant species for toxicity assessment of a metal engraving effluent sample , 1990 .

[19]  Harry A. J. Hoitink,et al.  NEW APPROACHES TO COMPOST MATURITY , 1990 .

[20]  G. Gupta,et al.  Effect of composting and number of flocks on poultry litter extract bod and toxicity , 1990 .