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1

Irrigation at the level of evapotranspiration aids growth recovery and photosynthesis rate in tomato grown under chilling stress

100%
Liu G., Du Q., Jiao X., Li J.
Acta Physiologiae Plantarum
|
2018
|
tom 40
|
nr 01
Although irrigation and temperature are predominant factors in tomato productivity in greenhouses, there is a lack of information on how these factors interact. Here, we examined single-factor responses and the interaction of three levels of irrigation (80, 100 and 120% of evapotranspiration) and two temperatures (normal temperature range of 13–30 °C and chilling temperature range of 4–24 °C) on growth, gas exchange, and antioxidant metabolism in relation to water uptake of pot-grown tomato plants (Solanum lycopersicum L. ‘No. 1 Jinpeng’). Lower growth was observed with the 80 and 120% irrigation levels than with the 100% treatment. Our results suggest that irrigation at 100% of evapotranspiration is the optimal level for ameliorating the chilling sensitivity of tomato, because this level of irrigation may enhance relative water content as well as nitrogen content to maintain the photosynthesis rate and reduce the damage to cells by reactive oxygen species (ROS). The adverse effects of 80 and 120% levels of irrigation might be attributable to a decreased photosynthesis rate and increased ROS accumulation, which would result in increased cell damage. Therefore, the use of irrigation at 100% of evapotranspiration is the best choice to support the acclimatization of tomato seedlings to chilling temperatures.
2

Stomatal responses to long-term high vapor pressure deficits mediated most limitation of photosynthesis in tomatoes

88%
Du Q., Xing G., Jiao X., Song X., Li J.
Acta Physiologiae Plantarum
|
2018
|
tom 40
|
nr 08
3
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Effects of environmental stresses on the growth of Arabidopsis thaliana Rosette Leaves

88%
Jiao X., Peng C., Zhang H., Huang Z., Zhao Y.
Journal of Horticultural Research
|
2022
|
tom 30
|
nr 1
4

Expiration date prediction of biocontrol agent prepared with Bacillus subtilis B579 using the accelerated aging method

88%
Zheng Y., Jiao X., Chen F., Wang X., Wang M.
Polish Journal of Microbiology
|
2016
|
tom 65
|
nr 4
The expiration date of biopesticidal products is an essential feature of their use and storage. In the present work, the expiration date of biocontrol agent was predicted using the accelerated aging method. The available bacteria in Bacillus subtilis B579 biocontrol agent were 3.7 ± 0.2 × 10¹¹ CFU/g. It is calculated that the expiration date of the agent was about 17 months at 25°C. During this period, the available bacteria retained more than 90% of the value in the initial product. Thus, this work suggests the expiration date of biocontrol agents composed with spores could be estimated using the accelerated aging method.
5

Comparative analysis of nonlinear growth curve models for Arabidopsis thaliana rosette leaves

64%
Jiao X., Zhang H., Zheng J., Yin Y., Wang G., Chen Y., Yu J., Ge Y.
Acta Physiologiae Plantarum
|
2018
|
tom 40
|
nr 06
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