Your search keyword '"Wang, Zhong-Qiang"' showing total 4 results

1. [Effects of temperature on soil organic carbon mineralization rate and enzyme kinetic para-meters in temperate and subtropical forests.]

Author

Liu S, Zhang XY, Yang Y, Tang YQ, and Wang ZQ

Subjects

China, Pinus, Temperature, Carbon, Forests, Soil chemistry

Abstract

We examined the effects of temperature on SOC mineralization rate (C min ) and enzyme kinetic parameters in soils of two different latitudinal forests, i.e., broad-leaved Korean pine forest in Changbai Mountain at higher latitude and evergreen broad-leaved forest in Dinghu Mountain at lower latitude. The results showed that the soil C min increased with temperature, and the C min and Q10(C min ) of the Changbai Mountain forest soil were higher than those of the Dinghu Mountain forest soil. The maximal rates of velocity (V max ) and the half-saturation constant (K m ) of the Changbai Mountain forest soil were higher relative to the Dinghu Mountain soil for both soil β-glucosidase (βG) and N-acetyl-β-D-glucosaminidase (NAG), but being opposite for catalytic efficiency (V max /K m ). Both V max and V max /K m of βG and NAG increased with the increase of incubation temperature, while K m decreased, i.e., the affinity of enzymes to the substrate were increased. Inconsistent with the soil Q10 (C min ), Q10(V max ) and Q 10(K m ) of the soil βG were higher in Dinghu Mountain forest soil than those in the Changbai Mountain forest soil. The mechanisms underlying the effects of temperate variation on C min and the enzyme kinetic parameters were different, and thus the temperature sensitivity of C min and enzyme kinetic parameters should be considered differentially in the models of soil biochemical process.

Published

2018

2. [Effect of agricultural application of municipal sewage sludge on plant-soil system: A review].

Author

Liu MJ, Xia SP, Wang J, Ma QX, Wang ZQ, and Wu LH

Subjects

Soil, Soil Pollutants, Agriculture, Metals, Heavy, Sewage

Abstract

Currently, reasonable disposal of municipal sewage sludge is one of the important issues in the field of resources and environmental science. Sludge is rich in large amounts of organic matter and available nutrients, promoting soil fertility, soil physical structure and biological properties. However, sludge contains a variety of heavy metals, organic contaminants and other hazardous substance, especially heavy metals, which are the bottlenecks of agricultural application of sludge. To improve the sewage sludge utilization efficiency and decrease the effect on soil, this essay made a summary on domestic and foreign studies on plant-soil interaction ecosystem with sewage sludge to provide a theoretical basis and scientific guidance for advancing sewage sludge utilization efficiency.

Published

2017

3. [Effects of spent mushroom compost on greenhouse cabbage growth under soil salt stress].

Author

Wang QL, Wu LH, Dong LX, Chen ZM, and Wang ZQ

Subjects

Agaricales, Environment, Controlled, Refuse Disposal methods, Stress, Physiological, Agriculture methods, Brassica growth & development, Salts analysis, Soil analysis

Abstract

A pot experiment was conducted to study the effect of spent mushroom compost (SMC) in alleviating greenhouse soil secondary salinization and cabbage salt stress. With the amendment of SMC, the salinized soil after 60 day cabbage cultivation had a pH value close to 7.0, its organic matter and available phosphorous contents increased significantly, and the increment of total water-soluble salt content reduced, compared with the control. When the amendment amount of SMC was 10 g x kg(-1), the increment of soil water soluble salt content was the least, suggesting that appropriate amendment with SMC could reduce the salt accumulation in greenhouse soil. Amendment with SMC increased the cabbage seed germination rate, plant height, plant fresh mass, chlorophyll SPAD value, and vitamin C content, and decreased the proline content significantly. All the results indicated that SMC could improve the growth environment of greenhouse cabbage, and effectively alleviate the detrimental effect of salt stress.

Published

2011

4. [Effects of nitrogen supply on Parthenocissus tricuspidata seedling morphology and nitrogen allocation].

Author

Wang ZQ, Wu LH, Xu BF, and Shao XL

Subjects

Biomass, Nitrogen metabolism, Plant Leaves drug effects, Plant Leaves growth & development, Plant Leaves metabolism, Seedlings growth & development, Seedlings metabolism, Vitaceae growth & development, Vitaceae metabolism, Nitrogen pharmacology, Seedlings drug effects, Vitaceae drug effects

Abstract

With hydroponic culture, this paper studied the effects of different nitrogen (N) supply levels (0, 0.15, 0.3, 0.45, 0.6, 0.75 g N x L(-1)) on the seedling morphology and N allocation of Parthenocissus tricuspidata. The results showed that lower N supply retarded the development of P. tricuspidata seedling's branch; while higher N supply had significant effects in promoting the seedling's early branching and lowering the branching position on the main stem. Supplying higher amount of N increased the plant biomass and the N concentration in root, leaf and stem significantly. Compared with stem and root, leaf had the highest biomass, accounting for 50% of the total biomass, and the highest N accumulation, accounting for 60%-70% of the total accumulated N.

Published

2007