Agriculture Reference
In-Depth Information
Pankhurst, CE; Hawke, BG; McDonal, HJ; Kirkby, CA; Buckerfield, JC; Michelsen, P ;
O'Brien, KA; Gupta, VVSR; Doube, BM. Evaluation of soil biological properties as
potential bioindicators of soil health.
Australian Journal of Experimental Agriculture
,
1995 35, 1015-1028.
Parr, JF; Papendick, RI; Hornick, SB; Meyer, RE. Soil quality: attributes and relationship to
alternative and sustainable agriculture.
American Journal of Alternative Agriculture
,
1992
7, 5-11.
Pereira, SIA; Lima, AIG; Figueira, EMAP. Screening possible mechanisms mediating
cadmium resistance in
Rhizobium leguminosarum
bv.
viciae
isolated from contaminated
portuguese soils.
Microbial Ecology
,
2006 52, 176-186.
Robinson, B; Russell, C; Hedley, M; Clothier, B. Cadmium adsorption by rhizobacteria:
implications for New Zealand pastureland.
Agriculture Ecomical Environmental
, 2001
87, 315-321.
Saeki, K; Kunito, T; Oyaizu, H; Matsumoto, S. Relationships between bacterial tolerance
levels and forms of copper and zinc in soils.
Journal of Environmental Quality
, 2002 31,
1570-1575.
Shen, G; Lu, Y; Zhou, Q; Hong, J. Interaction of polycyclic aromatic hydrocarbons and heavy
metals on soil enzyme.
Chemosphere
, 2005 61. 1175-1182.
Shi, W; Bischoff, M; Turco, R; Konopka, A. Long-term effects of chromium and lead upon
the activity of soil microbial communities.
Applied and Soil Ecology
, 2002 21, 169-177.
Smith, SR; Giller, KE. Effective
Rhizobium leguminosarum
biovar
trifolii
present in five soils
contaminated with heavy metals from long-term applications of sewage sludge or metal
mine spoil.
Soil Biology and Biochemistry
, 1992 24, 781-788.
Smith, LJ; Papendick, RI. Soil organic matter dynamics and crop residue management. In:
Metting B editor.
Soil Microbial Ecology
. New York: Marcel Dekker; 1993
Somasegaran, P; Hoben, HJ. Handbook for Rhizobia. Berlin: Springer-Verlag; 1994.
Tabatabai, MA. Effects of trace elements on urease activity.
Soil Biology and Biochemistry
,
1977 9, 9-13.
Tabatabai, MA. Soil enzymes. In: Weaver RW, Angle JS, Bottomly PS editors.
Methods of
Soil Analyses, Part 2, Microbiological and Biochemical Properties
. USA: Soil Science
Society of America; 1994; 775-833.
Top, EM; Maila, MP; Clerinx, M; Goris, J; De Vos, P; Verstraete, W. Methane oxidation as
method to evaluate the removal of 2,4-D from soil by plasmid-mediated
bioaugumentation.
FEMS Microbiology Ecology
, 1999 28, 203-213.
Trasar-Cepeda, C; Leirós, MC; Seoane, S; Gil-Sotres, F. Limitations of soil enzymes as
indicators of soil pollution.
Soil Biology and Biochemistry
, 2000 32, 1867-1875.
Tyler, G. Heavy metal pollution and soil enzyme activity.
Plant and Soil
, 1974 41, 303-311.
Vanhala, PT; Ahtiainen, JH. Soil respiration, ATP content and photobacterium toxicity test as
indicators of metal pollution in soil.
Environmental Toxicology and Water Quality
:
An
International Journal
, 1994
9, 115-121.
Vig, K; Megharaj, M; Sethunathan, N; Naidu, R. Bioavailability and toxicity of cadmium to
microorganisms and their activities in soil: a review.
Advances in Environmental
Research
, 2003 121-135.
Visser, S; Parkinson, D. Soil biological criteria as indicators of soil quality: soil
microorganisms.
American Journal of Alternative Agriculture
, 1992 7, 33-37.
White, JS; White, DC. Source topic of enzymes. Boca Raton- Florida: CRC Press LC; 1997
