1.
Litter VOCs induce changes in soil microbial biomass C and N and largely increase soil CO 2 efflux
by Dolores Asensio
Plant and soil, 2012-01-01, Vol.360, p.163-174
2.
Changes in soil microbial biomass C, ATP and microbial ATP concentrations due to increasing soil Cd levels in Chinese paddy soils growing rice (Oryza sativa)
by Qiu, Gaoyang
Plant and soil, 2018-12-17, Vol.436 (1-2), p.1-12
3.
N fertilization affects on soil respiration, microbial biomass and root respiration in Larix gmelinii and Fraxinus mandshurica plantations in China
by Jia, Shuxia
Plant and soil, 2010-08-01, Vol.333 (1/2), p.325-336
4.
Responses of soil microbial biomass and enzymatic activities to fertilizations of mixed inorganic and organic nitrogen at a subtropical forest in East China
by Guo, Peng
Plant and soil, 2011-01-01, Vol.338 (1/2), p.355-366
5.
Litter species traits, but not richness, contribute to carbon and nitrogen dynamics in an alpine meadow on the Tibetan Plateau
by Jiang, Jing
Plant and soil, 2013-12-01, Vol.373 (1/2), p.931-941
6.
Effects of livestock grazing intensity on soil biota in a semiarid steppe of Inner Mongolia
by Qi, Sha
Plant and soil, 2011-01-01, Vol.340 (1/2), p.117-126
7.
Indirect Effects of Nitrogen Amendments on Organic Substrate Quality Increase Enzymatic Activity Driving Decomposition in a Mesic Grassland
by Tiemann, Lisa K
Ecosystems (New York), 2011-03-01, Vol.14 (2), p.234-247
8.
Effects of forest management on soil N cycling in beech forests stocking on calcareous soils
by DANNENMANN, Michael
Plant and soil, 2006-01-01, Vol.287 (1/2), p.279-300
9.
Nutrient stocks and phosphorus fractions in mountain soils of Southern Ecuador after conversion of forest to pasture
by Hamer, Ute
Biogeochemistry, 2013-01-01, Vol.112 (1-3), p.495-510
10.
Effects of plant species diversity and composition on nitrogen cycling and the trace gas balance of soils
by NIKLAUS, Pascal A
Plant and soil, 2006-01-01, Vol.282 (1/2), p.83-98
11.
Relating net primary productivity to soil organic matter decomposition rates in pure and mixed Chinese fir plantations
by Wang, Silong
Plant and soil, 2010-09-01, Vol.334 (1/2), p.501-510
12.
Assessment of soil nitrogen and phosphorous availability under elevated CO2 and N-fertilization in a short rotation poplar plantation
by Lagomarsino, A
Plant and soil, 2008, Vol.308 (1-2), p.131-147
13.
Climate Change Affects Carbon Allocation to the Soil in Shrublands
by Gorissen, A
Ecosystems (New York), 2004-09-01, Vol.7 (6), p.650-661
14.
Differences of soil microbial biomass and nitrogen transformation under two forest types in central Germany
by Zhong, Zheke
Plant and soil, 2006-05-01, Vol.283 (1/2), p.287-297
15.
Estimating the active and total soil microbial biomass by kinetic respiration analysis
by Blagodatsky, S. A.
Biology and fertility of soils, 2000-10-05, Vol.32 (1), p.73-81
16.
Effects of afforestation on phosphorus dynamics and biological properties in a New Zealand grassland soil
by CHEN, C. R
Plant and soil, 2000-01-01, Vol.220 (1/2), p.151-163
17.
Dynamics in microbial immobilization and transformations of phosphorus in highly weathered subtropical soil following organic amendments
by JINSHUI WU
Plant and soil, 2007-01-01, Vol.290 (1/2), p.333-342
18.
Size, activity and catabolic diversity of the soil microbial biomass in a wetland complex invaded by reed canary grass
by Jacinthe, Pierre-André
Plant and soil, 2010-04-01, Vol.329 (1/2), p.227-238
19.
Shoot pruning of a hedgerow perennial legume alters the availability and temporal dynamics of root-derived nitrogen in a subtropical setting
by Carrillo, Yolima
Plant and soil, 2011-01-01, Vol.345 (1/2), p.59-68
20.
Gaps and Soil C Dynamics in Old Growth Northern Hardwood-Hemlock Forests
by Scharenbroch, B. C
Ecosystems (New York), 2008-04-01, Vol.11 (3), p.426-441
