W. Y. Wang scite author profile

W. Y. Wang

4Publications

59Citation Statements Received

58Citation Statements Given

How they've been cited

118

How they cite others

Affiliations

Qinghai Normal University, Lanzhou University

Publications

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The effect of land management on carbon and nitrogen status in plants and soils of alpine meadows on the Tibetan plateau

Wang

et al. 2005

Land Degrad Dev

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Large-scale grassland rehabilitation has been carried out on the severely degraded lands of the Tibetan plateau. The grasslands created provide a useful model for evaluating the recovery of ecosystem properties. The purposes of this research were: (1) to examine the relative influence of various rehabilitation practices on carbon and nitrogen in plants and soils in early secondary succession; and (2) to evaluate the degree to which severely degraded grassland altered plant and soil properties relative to the non-disturbed native community. The results showed: (1) The aboveground tissue C and N content in the control were 105Á97 g m À2 and 3Á356 g m , respectively. Soil C content in the uppermost 20 cm in the seeded treatments, the natural recovery treatment and the severely degraded treatment was 67 per cent, 73 per cent and 57 per cent, respectively, while soil N content in the uppermost 20 cm was 72 per cent, 82 per cent and 79 per cent, respectively, of that in the control.The severely degraded land was a major C source. Restoring the severely degraded lands to perennial vegetation was an alternative approach to sequestering C in former degraded systems. N was a limiting factor in seeding grassland. It is necessary for sustainable utilization of seeding grassland to supply extra N fertilizer to the soil or to add legume species into the seed mix.

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Zinc improves salt tolerance by increasing reactive oxygen species scavenging and reducing Na<sup>+</sup> accumulation in wheat seedlings

Xu¹,

Wang²,

Guo

et al. 2014

Biologia plant.

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Salt decreases the uptake of Zn and other minerals and causes nutritional disorders in plants. Zn is an essential micronutrient for all organisms and it is reasonable to hypothesize that Zn status is essential for maintaining salt tolerance in plants. In this study, the physiological and molecular mechanisms of Zn-based alleviation of salt stress in wheat seedlings were investigated. Our results indicate that sufficient Zn nutrition maintained antioxidative enzyme activities and decreased a reactive oxygen species over-accumulation in wheat seedlings. Our data also reveal that sufficient Zn nutrition improved the expression of Na + /H + antiporter genes, TaSOS1 and TaNHX1, thereby decreasing the Na + accumulation and subsequently improving salt tolerance in wheat seedlings.Additional key words: antioxidative enzyme, ascorbate peroxidase, Na + /H + antiporter, peroxidase, superoxide dismutase, Triticum aestivum.

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Cadmium induces early flowering in Arabidopsis

Wang¹,

Liu

et al. 2012

Biologia plant.

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We found that cadmium promoted flowering in Arabidopsis and suppressed nitric oxide accumulation in leaves. Supplementation with NO donor SNP delayed flowering, whereas application of NO scavenger cPTIO further promoted the transition from vegetative to reproductive stage under Cd stress. Semi-quantitative RT-PCR showed that Cd treatment up-regulated the expression of CONSTANS and FLOWERING LOCUS T, whereas down-regulated the expression of FLOWERING LOCUS C.Additional key words: nitric oxide, CONSTANS, FLOWERING LOCUS C, FLOWERING LOCUS T.

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Identification of cadmium-responsive microRNAs in Solanum torvum by high-throughput sequencing

Kang

Gao

Zhao

et al. 2017

Russ J Plant Physiol

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W. Y. Wang

The effect of land management on carbon and nitrogen status in plants and soils of alpine meadows on the Tibetan plateau

Zinc improves salt tolerance by increasing reactive oxygen species scavenging and reducing Na<sup>+</sup> accumulation in wheat seedlings

Cadmium induces early flowering in Arabidopsis

Identification of cadmium-responsive microRNAs in Solanum torvum by high-throughput sequencing

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