Agriculture Reference
In-Depth Information
Finstein MS, Miller FC (1985) Principles of composting leading to maximization of decomposi-
tion rate, odor control and cost effectiveness. In: Gasser JKR (ed) Composting of agricultural
and other wastes. Elsevier Applied science Publications, Barking, pp 13-26
Fuchs JG (2002) Practical use of quality compost for plant health and vitality improvement. In:
Insam H, Riddech N, Klammer S (eds) Microbiology of composting. Springer, Heiderlberg,
pp 435-444
Garcia C, Hernandez T, Costa F (1991) Changes in carbon fractions during composting and matu-
ration of organic wastes. Environ Manage 15:433-439
García-Gómez A, Bernal MP, Roig A (2003) Carbon mineralisation and plant growth in soil amend-
ed with compost samples at different degrees of maturity. Waste Manage Res 21(2):161-171
Ge B, McCartney D, Zeb J (2006) Compost environmental protection standards in Canada. J En-
viron Eng Sci 5:221-234
Golueke CG (1981) Principles of biological resources recovery. BioCycle 22:36-40
Goyal S, Dhull SK, Kapoor KK (2005) Chemical and biological changes during composting of
different wastes and assessment of compost maturity. Bioresour Technol 96:1584-1591
Gray KR, Sherman K, Biddlestone AJ (1971) A review of composting. Part I. Microbiology and
biochemistry, process. Biochemistry 6:32-36
Harada Y, Inoko A (1980) Relationship between cation exchange capacity and degree of maturity
of city refuse composts. Soil Sci Plant Nutr 26:353-362
Haug RT (1980) Compost engineering: principals and practice. Ann Arbor Science, Michigan
He XT, Logan TJ, Traine SJ (1995) Physical and chemical characteristics of selected US municipal
solid waste composts. J Environ Qual 24:543-552
Hellmann B, Zelles L, Palojarvi A, Bai Q (1997) Emissions of climate-relevant trace gases and
succession of microbial communities during open-windrow composting. Applied Environ Mi-
crobiol 63:1011-1018
Hoekstra NJ, Bosker T, Lantinga EA (2002) Effects of cattle dung from farms with different feed-
ing strategies on germination and initial root growth of cress (
Lepidium sativum
L). Agric
Ecosyst Environ 93:189-196
Hoitink HAJ (2000) Trends in treatment and utilization of solid wastes through composting in the
United States. In: Warman PR, Taylor BR (eds) Proc International Composting Symp, vol 1.
CBA Press Inc., Nova Scotia, pp 1-13
Hue NV, Liu J (1995) Predicting compost stability. Compost Sci Util 3:8-15
Iannotti DA, Grebus ME, Toth BL, Madden LV, Hoitink HAJ (1994) Oxygen respirometry to as-
sess stability and maturity of composted municipal solid waste. J Environ Qual 23:1177-1183
Iglesias Jiménez E, Pérez García V (1992) Determination of maturity indices for city refuse com-
posts. Agric Ecosyst Environ 38(4):331-343
Inbar Y, Hadar Y, Chen Y (1993) Recycling of cattle manure: the composting process and charac-
terization of maturity. J Environ Qual 22:857-863
Ishii K, Fukui M, Takii S (2000) Microbial succession during a composting process as evaluated
by denaturing gradient gel electrophoresis analysis. J Appl Microbiol 89:768-777
Itavaara M, Vikman M, Venelampi O (1997) Windrow composting of biodegradable packaging
materials. Compost Sci Util 5:84-92
Itavaara M, Venelampi O, Vikman M, Kapanen A (2002) Compost maturity—problems associated
with testing. In: Insam H, Riddech N, Klammer S (eds) Microbiology of composting. Springer,
Heidelberg, pp 373-382
Juste C (1980) Advantages et inconvenient de I' utilization des composts d' ordures menageres
comme amendment organique des soils ou supports de culture International conference on
compost, 22-26 Jan, Madrid, Spain. Min Obras Publicas
Keener HM, Dick WA, Hoitink HAJ (2000) Composting and beneficial utilization of composted
by-product materials. In: Dick WA (ed) Land application of agricultural, industrial, and mu-
nicipal by-products. Soil Science Society of America Inc., Madison, pp 315-341
Kirchmann H, Widen P (1994) Separately collected organic household wastes. Swedish J Agric
Res 24:3-12
