Agriculture Reference
In-Depth Information
Cleveland CC, Liptzin D (2007) C: N: P stoichiometry in soil: is there a “Redfield ratio” for the
microbial biomass? Biogeochemistry 85(3):235-252
Cooperband L (2002) The art and science of composting: a resource for farmers and compost
producers. Center for integrated agricultural systems. http://www.cias.wisc.edu/wpcontent/up-
loads/2008/07/artofcompost.pdf. Accessed 4 Aug 2013
d'Annunzio R, Zeller B, Nicolas M, Dhôte JF, Saint-André L (2008) Decomposition of European
beech (
Fagus sylvatica
) litter: combining quality theory and
15
N labelling experiments. Soil
Biol Biochem 40(2):322-333
Debosz K, Rasmussen PH, Pedersen AR (1999) Temporaral variations in microbial biomass C
and cellulolytic enzyme activity in arable soils: effects of organic matter input. Appl Soil Ecol
13:209-218
Debosz K, Petersen SO, Kure LK, Ambus P (2002) Evaluating effects of sewage sludge and
household compost on soil physical, chemical and microbiological properties. Appl Soil Ecol
19:237-248
Dillon JL, Anderson JR (1990) The analysis of response in crop and livestock production. Per-
gamon, New York
Dobermann AR (2005) Nitrogen use efficiency—state of the art. Agronomy and horticulture—fac-
ulty publications. http://digitalcommons.unl.edu/agronomyfacpub/316. Accessed 4 Aug 2013
Duong TTT, Baumann K, Marschner P (2009) Frequent addition of wheat straw residues to soil
enhances carbon mineralization rate. Soil Biol Biochem 41(7):1475-1482
Enwall K, Philippot L, Hallin S (2005) Activity and composition of the denitrifying bacterial com-
munity respond differently to long-term fertilization. Appl Environ Microbiol 71(12):8335-8343
Epstein E (1997) The science of composting. CRC, Boca Raton
Feinstein MS, Morris ML (1975) Microbiology of municipal solid waste composting. Adv Appl
Microbiol 19:113-151
Fernández JM, Plaza C, García-Gil JC, Polo A (2009) Biochemical properties and barley yield
in a semiarid Mediterranean soil amended with two kinds of sewage sludge. Appl Soil Ecol
42:18-24
Fließbach A, Mäder P (2000) Microbial biomass and size-density fractions differ between soils of
organic and conventional agricultural systems. Soil Biol Biochem 32:757-768
Foley JA, Ramankutty N, Brauman KA, Cassidy ES, Gerber JS, Johnston M, Mueller ND,
O'Connell C, Ray DK, West PC, Balzer C, Bennett EM, Carpenter SR, Hill J, Monfreda C, Po-
lasky S, Rockstro J, Sheehan J, Siebert S, Tilman D, Zaks PM (2011) Solutions for a cultivated
planet. Nature 478:337-342
Francis C, Lieblein G, Gliessman S, Breland TA, Creamer N, Harwood R, Poincelot R (2003)
Agroecology: the ecology of food systems. J Sust Agric 22(3):99-118
Frost PC, Benstead JP, Cross WF, Hillebrand H, Larson JH, Xenopoulos MA, Yoshida T (2006)
Threshold elemental ratios of C and phosphorus in aquatic consumers. Ecol Lett 9(7):774-779
Fuchs JG (2010) Interactions between beneficial and harmful microorganisms: From the compost-
ing process to compost application. In: Insam H, Franke-Whittle I, Goberna, M (eds) Microbes
at work. Springer, Berlin
Garcia-Prendes R (2001) Evaluation of dairy manure compost as a peat substitute in potting media
for container grown plants. Ph. D. Thesis, University of Florida
Gould GW (2006) History of science-spores. J Appl Microbiol 101(3):507-513
Goulding K, Jarvis S, Whitmore A (2008) Optimizing nutrient management for farm systems.
Philos Trans Royal Soc B Biol Sci 363(1491):667-680
Goyal S, Dhull SK, Kapoor KK (2005) Chemical and biological changes during composting of dif-
ferent organic wastes and assessment of compost maturity. Bioresour Technol 96:1584-1591
Haug RT (1993) The practical handbook of compost engineering. Lewis Publishers, Boca Raton
Hermann RF, Shann JF (1997) Microbial community changes during the composting of municipal
solid waste. Microb Ecol 33:78-85
Höper H, Alabouvette C (1996) Importance of physical and chemical soil properties in the sup-
pressiveness of soils to plant diseases. Euro J Soil Biol 32(1):41-58
