Shuxin Dong scite author profile

The response of tropical forests to global climate variability and change remains poorly understood. Results from long-term studies of permanent forest plots have reported different, and in some cases opposing trends in tropical forest dynamics. In this study, we examined changes in tree growth rates at four long-term permanent tropical forest research plots in relation to variation in solar radiation, temperature and precipitation. Temporal variation in the stand-level growth rates measured at five-year intervals was found to be positively correlated with variation in incoming solar radiation and negatively related to temporal variation in night-time temperatures. Taken alone, neither solar radiation variability nor the effects of night-time temperatures can account for the observed temporal variation in tree growth rates across sites, but when considered together, these two climate variables account for most of the observed temporal variability in tree growth rates. Further analysis indicates that the stand-level response is primarily driven by the responses of smaller-sized trees (less than 20 cm in diameter). The combined temperature and radiation responses identified in this study provide a potential explanation for the conflicting patterns in tree growth rates found in previous studies.

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Optimised nitrogen allocation favours improvement in canopy photosynthetic nitrogen-use efficiency: Evidence from late-sown winter wheat

Yin

Xu²,

Dong

et al. 2019

Environmental and Experimental Botany

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Effects of nitrogen application stage on grain yield and nitrogen use efficiency of high-yield summer maize

Lu¹,

Zhang²,

Jin³

et al. 2012

PLANT SOIL ENVIRON

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This study aims to explore the optimum nitrogen (N) application method by analyzing effects of variable N application stages and ratios on the N absorption and translocation of high-yield summer maize (DH661). The study included field experiments and 15 N isotopic dilutions for pot experiments. Results showed that the yield was not increased in a one-off N application at the jointing stage. The uptake of fertilizer-derived N in the grain increased with the increasing of N applied t imes. Compared to a single or double application, total N uptake (N up ) and biomass increased significantly by supplying N at the six-leaf stage (V6), ten-leaf stage (V10) and 10 days after anthesis in ratios of 3:5:2 and 2:4:4. The fertilizer-derived recovery rates were 67.5% and 78.1%, respectively. The uptake and utilization of fertilizer-derived N was enhanced by increasing the recovery rate of N supplied after anthesis, and reducing the absorption of soil-derived N. Therefore, the 2:4:4 application ratios was the optimal N application method.

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Delayed sowing can increase lodging resistance while maintaining grain yield and nitrogen use efficiency in winter wheat

et al. 2017

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Integrated management strategy for improving the grain yield and nitrogen-use efficiency of winter wheat

Dai

Chu

et al. 2018

Journal of Integrative Agriculture

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Shuxin Dong

Variability in solar radiation and temperature explains observed patterns and trends in tree growth rates across four tropical forests

Optimised nitrogen allocation favours improvement in canopy photosynthetic nitrogen-use efficiency: Evidence from late-sown winter wheat

Effects of nitrogen application stage on grain yield and nitrogen use efficiency of high-yield summer maize

Delayed sowing can increase lodging resistance while maintaining grain yield and nitrogen use efficiency in winter wheat

Integrated management strategy for improving the grain yield and nitrogen-use efficiency of winter wheat

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