Authors:
SAGGAR S
PARSHOTAM A
SPARLING GP
FELTHAM CW
HART PBS
Citation: S. Saggar et al., C-14-LABELED RYEGRASS TURNOVER AND RESIDENCE TIMES IN SOILS VARYING IN CLAY CONTENT AND MINERALOGY, Soil biology & biochemistry, 28(12), 1996, pp. 1677-1686
Citation: Kr. Tate et al., SOIL CARBON STORAGE AND TURNOVER IN TEMPERATE FORESTS AND GRASSLANDS - A NEW-ZEALAND PERSPECTIVE, Journal of biogeography, 22(4-5), 1995, pp. 695-700
Citation: A. Parshotam et Ae. Hewitt, APPLICATION OF THE ROTHAMSTED CARBON TURNOVER MODEL TO SOILS IN DEGRADED SEMIARID LAND IN NEW-ZEALAND, Environment international, 21(5), 1995, pp. 693-697
Authors:
SPEIR TW
KETTLES HA
PARSHOTAM A
SEARLE PL
VLAAR LNC
Citation: Tw. Speir et al., A SIMPLE KINETIC APPROACH TO DERIVE THE ECOLOGICAL DOSE VALUE, ED(50), FOR THE ASSESSMENT OF CR(VI) TOXICITY TO SOIL BIOLOGICAL PROPERTIES, Soil biology & biochemistry, 27(6), 1995, pp. 801-810
Authors:
SAGGAR S
TATE KR
FELTHAM CW
CHILDS CW
PARSHOTAM A
Citation: S. Saggar et al., CARBON TURNOVER IN A RANGE OF ALLOPHANIC SOILS AMENDED WITH C-14-LABELED GLUCOSE, Soil biology & biochemistry, 26(9), 1994, pp. 1263-1271
Citation: A. Parshotam et al., COMPARISON-THEOREMS FOR COUPLED REACTION-DIFFUSION EQUATIONS IN CHEMICAL REACTOR ANALYSIS, Journal of mathematical analysis and applications, 178(1), 1993, pp. 196-220