Winter wheat (Triticum aestivum L.) monoculture is conventionally cultivated followed by two to three months of summer fallow in the Loess Plateau. To develop a sustainable cropping system, we conducted a six-year field experiment to investigate the effect of leguminous green manure (LGM) instead of bare fallow on the yield and water use efficiency (WUE) of winter wheat and the soil water balance (SWB) in different precipitation years in a semi-arid region of northwest China. Results confirmed that planting LGM crop consumes soil water in the fallow season can bring varied effects to the subsequent wheat. The effect is positive or neutral when the annual precipitation is adequate, so that there is no significant reduction in the soil water supplied to wheat. If this is not the case, the effect is negative. On average, the LGM crop increased wheat yield and WUE by 13% and 28%, respectively, and had considerable potential for maintaining the SWB (0–200 cm) compared with fallow management. In conclusion, cultivation of the LGM crop is a better option than fallow to improve the productivity and WUE of the next crop and maintain the soil water balance in the normal and wet years in the Loess Plateau.
Green manure and fertilization practices have substantial impacts on soil chemical and biological properties over time. A field experiment was conducted on Cumulic Haplustoll to investigate the effects of leguminous green manure (LGM) crops and nitrogen (N) fertilizer on dry‐stable soil aggregate distributions and stability, the concentrations of organic carbon (OC) and N in the bulk soil and separated aggregate fractions, and soil enzyme activities in dry croplands on the Loess Plateau of China. Species tested as LGM crops were Huai bean (Glycine ussuriensis Regel et Maack.), soybean (G. max (L.) Merr.) and mung bean (Phaseolus radiatus L.). Two rates of N fertilizer (0 and 162 kg N ha−1) applied to winter wheat sown after LGM was incorporated into surface soil. Results showed that the inclusion of LGM crops for 6 years significantly increased the total nitrogen (TN), soil organic carbon (SOC), aggregate‐associated N and OC concentrations, enhanced the values of aggregate content with >0.25 mm size (R0.25) and mean weight diameter (MWD), and boosted soil enzyme (invertase, urease, dehydrogenase and aryl‐sulfatase) activities at the 0–20‐cm depth compared to the bare fallow system under dryland conditions. The long‐term application of N fertilizer substantially increased the proportion of macroaggregates (>5.0 mm), MWD and N contents in the 0.25–5‐mm size aggregates, and promoted the relative activities of invertase, alkaline phosphatase, dehydrogenase and aryl‐sulphatase, but decreased the urease activity. The correlations among macroaggregate fractions and soil chemical properties, aggregate stability and enzyme activities were significant and positive; however, the correlations between small aggregate fractions (<2 mm) and corresponding parameters were negative, or there were no correlations. Overall, combining green manuring practices with suitable N fertilizer application should be recommended to improve the soil quality in dryland regions similar to the Loess Plateau of China.
Highlights
Green manure crops significantly increased soil enzyme activities, SOC and total N contents.
Green manure crops increased macroaggregate (>5 mm) formation and stability.
Application of N fertilizer significantly increased the proportions and stability of macroaggregates.
Green manure crops along with N fertilizer helped to build better soil quality in a dry loess cropland.
Nephrogenic systemic fibrosis (NSF) is a fibrosing disorder disease developed in patients with underlying renal insufficiency following exposure to gadolinium-based contrast agents (GBCAs). Previous studies have demonstrated that GdCl3 can promote NIH3T3 fibroblast cell proliferation, which provide a new clue to the role of GBCAs in the development of NSF. In the present study, we further clarify the molecular mechanism of Gd-promoted proliferation. The results showed that intervention with the Rac inhibitor NSC23766 abrogated Gd-promoted proliferation. The levels of active Rac1 significantly increased in Gd-treated cells detected by pull-down assays. In addition, the phosphorylation of Akt was significantly elevated in the treatment group, which was blocked by NSC23766. NSC23766 also reduced the migration of NIH3T3 cells enhanced by Gd. Moreover, the F-actin cytoskeleton was strengthened and the mitotic cell numbers was significantly increased after exposure to Gd. These results suggest that Rac and PI3K/Akt signaling pathways, as well as integrin-mediated signal pathway may play important roles in Gd-induced cell proliferation. In addition, under serum-free condition, Gd could decrease ROS accumulation and increase NIH3T3 cell survival.
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