Your search keyword '"semiarid Loess Plateau"' showing total 3 results

1. Achieving the dual goals of biomass production and soil rehabilitation with sown pasture on marginal cropland: Evidence from a multi-year field experiment in Northeast Inner Mongolia

Author

Lijun, Xu, Da, Li, Di, Wang, Liming, Ye, Yingying, Nie, Huajun, Fang, Wei, Xue, Chunli, Bai, and Eric, Van Ranst

Subjects

land restoration, cropland-grassland system, GRASSLAND, ALFALFA, smooth bromegrass, Plant Science, CHINA, EXTRACTION METHOD, grazing pressure, NITROGEN, Bromus inermis L, ORGANIC-MATTER, CONVERSION, Medicago sativa L, SEMIARID LOESS PLATEAU, Earth and Environmental Sciences, FERTILITY, soil quality, CARBON STOCKS

Abstract

Grassland is the primary land use in China but has experienced severe degradation in recent decades due to overgrazing and conversion to agricultural production. Here, we conducted a field experiment in northeastern Inner Mongolia to test the effectiveness of sown pastures in lowering the grazing pressure on grasslands and raising the quality of marginal soils. Alfalfa and smooth bromegrass monocultures and mixture were sown in a marginal cropland field in Hulunber in June 2016. Biomass productivity, soil physicochemical, and biological properties were monitored annually from 2016 to 2020. The results showed that the marginal cropland soil responded consistently positively to sown pastures for major soil properties. Soil organic carbon (SOC) and total nitrogen (TN) increased by 48 and 21%, respectively, from 2016 to 2020 over the 0-60 cm soil depth range. Soil microbes responded proactively too. The soil microbial biomass C (SMBC) and N (SMBN) increased by 117 and 39%, respectively, during the period of 2016-2020. However, by the end of the experiment, the soil of a natural grassland field, which was included in the experiment as a control, led the sown pasture soil by 28% for SOC, 35% for TN, 66% for SMBC, and 96% for SMBN. Nevertheless, the natural grassland soil’s productive capacity was inferior to that of the sown pasture soil. The average aboveground biomass productivity of sown pastures was measured at 8.4 Mg ha-1 in 2020, compared to 5.0 Mg ha-1 for natural grassland, while the root biomass of sown pastures was averaged at 7.5 Mg ha-1, leading the natural grassland by 15%. Our analyses also showed that the sown pastures’ biomass productivity advantage had a much-neglected potential in natural grassland protection. If 50% of the available marginal cropland resources in Hulunber under the current environmental protection law were used for sown pastures, the livestock grazing pressure on the natural grasslands would decrease by a big margin of 38%. Overall, these results represent systematic empirical and analytical evidence of marginal cropland soil’s positive responses to sown pastures, which shows clearly that sown pasture is a valid measure both for soil rehabilitation and biomass production.

Published

2022

2. Productivity and water use of alfalfa and subsequent crops in the semiarid Loess Plateau with different stand ages of alfalfa and crop sequences

Author

Jia, Yu, Li, Feng-Min, Zhang, Zhen-hua, Wang, Xiao-Ling, Guo, Ruiying, and Siddique, Kadambot H.M.

Subjects

*ALFALFA, *WATER requirements for crops, *CROP yields, *CROP rotation, *SOWING, *BIOMASS, *EVAPOTRANSPIRATION

Abstract

Abstract: Alfalfa (Medicago sativa L.) plays an important role in crop–livestock mixed farming on marginal land in the semiarid Loess Plateau. However, the duration, yield performance and water use of long-term alfalfa stands and choice of appropriate subsequent crops are not clear. A 5-year field experiment was conducted at Zhonglianchuan, Gansu Province, China from 2001 to 2005. Productivity and water use were determined and compared between (1) three alfalfa stands that were 1–5 (A1–5), 6–10 (A6–10) and 11–15 (A11–15) years old during the trial; (2) alfalfa using conventional cultivation and a water-harvesting technique (RA1–5); and (3) conventional crop rotation (CK) and four 5-year crop sequence rotations sown after 10-year-old alfalfa had been ploughed, being millet–wheat–potato–pea–potato (MWLPL); millet–corn–corn–wheat–wheat (MCCWW); millet–potato–wheat–corn–corn (MLWCC) and millet–fallow–pea–potato–pea (MFPLP). Forage yield peaked in 7-year-old alfalfa (5740kgha−1), but 9-year-old alfalfa had the maximum forage yield profit (4477kgha−1 y−1) in terms of whole growing years. Soil water use efficiency (WUES in terms of forage yield and soil water use) of alfalfa increased dramatically up to the 11th year, and then leveled off from year 12 to 15. Forage yield and WUEB/ET (WUE in terms of aboveground biomass and evapotranspiration) of alfalfa were significantly higher using water harvesting compared with conventional cultivation, but were significantly lower than CK. Soil water content did not change in CK as stand age increased, but it decreased in conventional alfalfa stands. After 10 years of alfalfa, a fallow year was not necessary before planting annual crops as soil water was greatly restored after sowing subsequent annual crops. Yield of some crops in the four crop sequence rotations did not differ significantly from CK. MWLPL and MLWCC had more aboveground biomass than MCCWW and MFPLP but the choice of crop sequence needs to be further considered. [Copyright &y& Elsevier]

Published

2009

3. Soil quality responses to alfalfa watered with a field micro-catchment technique in the Loess Plateau of China

Author

Jia, Yu, Li, Feng-Min, and Wang, Xiao-Ling

Subjects

*FORAGE plants, *SOIL management, *HORTICULTURE, *WATER reuse

Abstract

Abstract: This paper explores the soil responses to alfalfa that is established using a field micro-catchment technique to harvest water under semiarid conditions. The field micro-catchment technique involved setting up ridges and furrows alternately on the flat land. The ridges served as the rainfall harvesting zone and the furrows as the planting zone. Five treatments were set up in this study: (1) conventional cultivation in a flat plot without mulch (CK), (2) plastic mulched ridge with 30cm width of ridge and furrow (M30), (3) plastic mulched ridge with 60cm width of ridge and furrow (M60), (4) bare ridge with 30cm width of ridge and furrow (B30), (5) bare ridge with 60cm width of ridge and furrow (B60). The mulching treatments increased the productivity of seeded alfalfa and significantly (p <0.05) increased water use efficiency, causing the soil organic carbon (SOC), total soil nitrogen (TSN) and C/N ratio to increase. We also found that the alfalfa root system was very good at breaking up the plowing pan created by many years of tillage. In the M30 and M60 treatments, the total forage yield during the 3 years was higher than in CK by 10.7% and 40.3% respectively, whereas the total forage yield over the 3 years in the B30 and B60 treatments were lower than in the CK treatment by 14.2% and 28.3%, respectively. The water use efficiency in the mulching treatment was significantly higher than in the other treatments. After 3 years (2001–2003), the SOC content in ridge and furrow treatments (M30, M60, B30 and B60) was increased by 7.4%, 14.2%, 4.5% and 1.8%, respectively, contrasting with a decrease of 3.5% in the CK treatment. The increase in SOC positively correlated (R 2 =0.6257) with the forage yield of alfalfa in the ridge and furrow treatments. The TSN for CK, M30, M60, B30 and B60 increased by 0.35%, 1.70%, 2.30%, 0.75% and 0.64%, respectively by the end of the 3 years. However, we found that the available phosphorus (P) in the mulch treatments during the 3-year period decreased rapidly indicating that it is necessary to apply P fertilizer to alfalfa-cultivated land under these management conditions. In conclusion, the ridge and furrow with mulch treatments, especially M60 treatments, proved to be a better pattern for alfalfa establishment, soil quality and nutrient cycling under semiarid conditions. [Copyright &y& Elsevier]

Published

2006