Agriculture Reference
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Jenkinson, D.S. and Powlson, D.S. (1976). The effect of biocidal treatments on metabolism in
soil. V. A method for measuring soil biomass. Soil Biology and Biochemistry , 8, 209-213.
Johnsen, K. and Jacobsen, C.S. and Torsvik, V. and Sørensen, J. (2001). Pesticide effects on
bacterial diversity in agricultural soils - a review. Biology and Fertility of Soils, 33 , 443-
453.
Johnston, A.E. (1986). Soil organic matter, effects on soils and crops. Soil Use Management ,
2, 97-105.
Jules, E.S. and Kauffman, M.J. and Ritts, W.D. and Carroll, A.L. (2002). Spread of an
invasive pathogen over a variable landscape: a nonnative root rot on Port Orford cedar.
Ecology 83: 3167-3181.
Kabengi, N.J. and Zyrayk, R.A. and Baalbaki, R.Z. and Ryan, J. (2003). Phosphorus
dynamics and characterization under long-term rotation trial. Communications in Soil
Science and Plant Analysis , 34 (3-4), 375-392.
Kazanis, D. and Arianoutsou, M. (2004). Long-term post-fire vegetation dynamics in Pinus
halepensis forests of Central Greece: A functional group approach. Plant Ecology, 171,
(1-2), 101-121.
Kazanis, D. and Arianoutsou, M. (1996). Vegetation composition in a post-fire successional
gradient of Pinus halepensis forests in Attica, Greece. International Journal of Wildland
Fire, 6 (2), 83-91.
Kieft, T. and Soroker, E. and Firestone, M. (1987). Microbial biomass response to a rapid
increase in water potential when dry soil is wetted. Soil Biology and Biochemistry , 19,
119-126.
Lamotte, M. and Bladin, P. (1989). Originalité et diversité des écosystèmes méditerranéens
terrestres. Biologia Gallo-Hellenica , 16, 5-36.
Lavee, H. and Imeson, A.C. and Sarah, P. (1998). The impact of climate change on
geomorphology and desertification along a Mediterranean-arid transect. Land
Degradation and Development , 9(5), 407-422.
Li, Q. and Mayzlish, E. and Shamir, I. and Pen-Mouratov, S. and Sternberg, M. and
Steinberger, Y. (2005). Impact of grazing on soil biota in a Mediterranean grassland.
Land Degradation and Development , 16(6), 581-592.
Liu, X. and Lindemann, W.C. and Whitford, W.G.and Steiner, R.L. (2000). Microbial
diversity and activity of distrurbed soil in the northern Chihuahuan Desert. Biology and
Fertility of Soils , 32, 243-249.
Maggi, O. and Persiani, A.M. and Casado, M.A. and Pineda, F.D. (2005). Effects of
elevation, slope position and livestock exclusion on microfungi isolated from soils of
Mediterranean grasslands. Mycologia , 97(5), 984-995.
Maraun, M. and Visser, S. and Scheu, S. (1998). Oribatid mites enhance the recovery of the
microbial community after a strong disturbance . Applied Soil Ecology , 9, 175-181.
Martini, E.A. and Buyer, J.S. and Bryant, D.C. and Hartz, T.K and Denison R.F. (2004).
Yield increases during the organic transition: improving soil quality or increasing
experience? Field Crops Research, 86 , 255-266.
Monokrousos, N. and Papatheodorou, E.M. and Diamatopoulos, J.D. and Stamou, G.P.
(2006). Soil Biology and Biochemistry, 38 , 1282-1289.
Monokrousos, N. and Papatheodorou, E.M. and Diamantopoulos, J.D. and Stamou, G.P.
(2004). Temporal and spatial variability of soil chemical and biological variables in a
Mediterrannean shrubland. Forest Ecology and Management, 202 , 83-91.
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