Cultivating salt-tolerant crops is a feasible way to effectively utilize saline-alkali land and solve the problem of underutilization of saline soils.Quinoa,a protein-comprehensive cereal in the plant kingdom,is an ex...Cultivating salt-tolerant crops is a feasible way to effectively utilize saline-alkali land and solve the problem of underutilization of saline soils.Quinoa,a protein-comprehensive cereal in the plant kingdom,is an exceptional crop in terms of salt stress tolerance level.It seems an excellent model for the exploration of salt-tolerance mechanisms and cultivation of salt-tolerant germplasms.In this study,the seeds and seedlings of the quinoa cultivar Shelly were treated with different concentrations of NaCl solution.The physiological,biochemical characteristics and agronomic traits were investigated,and the response patterns of three salt stress-responsive genes(SSRGs)in quinoa were determined by real-time PCR.The optimum level of stress tolerance of quinoa cultivar Shelly was found in the range of 250–350 mM concentration of NaCl.Salt stress significantly induced expression of superoxide dismutase(SOD),peroxidase(POD),and particularly betaine aldehyde dehydrogenase(BADH).BADH was discovered to be more sensitive to salt stress and played an important role in the salt stress tolerance of quinoa seedlings,particularly at high NaCl concentrations,as it displayed upregulation until 24 h under 100 mM salt treatment.Moreover,it showed upregulation until 12 h under 250 mM salt stress.Taken together,these results suggest that BADH played an essential role in the salt-tolerance mechanism of quinoa.Based on the expression level and prompt response induced by NaCl,we suggest that the BADH can be considered as a molecular marker for screening salt-tolerant quinoa germplasm at the early stages of crop development.Salt treatment at different plant ontogeny or at different concentrations had a significant impact on quinoa growth.Therefore,an appropriate treatment approach needs to be chosen rationally in the process of screening salt-tolerant quinoa germplasm,which is useful to the utilization of saline soils.Our study provides a fundamental information to deepen knowledge of the salt tolerance mechanism of quinoa for the development of salt-tolerant germplasm in crop breeding programs.展开更多
China launched the potato staple food strategy in 2015. The potato staple food strategy focuses on increasing potato consumption and promoting potato production through processing and use of potato staple food. This p...China launched the potato staple food strategy in 2015. The potato staple food strategy focuses on increasing potato consumption and promoting potato production through processing and use of potato staple food. This provides new opportunity for development of potato in Zhejiang Province. This paper analyzed development strengths and existing problems of the potato industry in Zhejiang Province. On this basis,it came up with pertinent recommendations for potato staple food development in Zhejiang Province,so as to guide consumption with nutrition,and guide production with consumption,to provide theoretical foundation for development of potato industry in Zhejiang Province.展开更多
The proper terminal disposal of organic solid waste such as domestic waste is a worldwide issue.Landfill covers a large area,with limited capacity,and a single landfill will be filled one day;incineration is costly to...The proper terminal disposal of organic solid waste such as domestic waste is a worldwide issue.Landfill covers a large area,with limited capacity,and a single landfill will be filled one day;incineration is costly to build and operate.These methods all need to transfer and centralized treatment,and secondary pollution is difficult to control,against the purification law of the nature."NIMBY effect"is very serious,and the social cost of treatment is increasing,becoming a heavy financial burden."The Distributed Waste Pyrolysis Cold Emission Energy Station"developed by Hunan Zhongzhou Energy-Saving Technology Co.,Ltd.overcomes these disadvantages and constructs a more appropriate environmental economic industrial chain for the treatment of organic solid waste such as urban and rural household waste.Based on its technical characteristics,this paper compares it with waste incineration power generation project in the aspects of secondary pollution control,treatment effect,energy utilization,investment and operation economy,etc.展开更多
A sharp rebound in global energy emissions in 2018 is disappointing as the carbon-dioxide data monitored by mon ppm,hawaii reached 415.09 on may 3,the highest level in at least 800,000 years.We are well known to emit ...A sharp rebound in global energy emissions in 2018 is disappointing as the carbon-dioxide data monitored by mon ppm,hawaii reached 415.09 on may 3,the highest level in at least 800,000 years.We are well known to emit 0.272 kg of carbon dust,0.997 kg of carbon dioxide(C02),0.03 kg of sulfur dioxide(S02),0.015 kg of nitrogen oxides(NOX)and huge amounts of heat to the earth for each electricity we use a 1 degree thermal power plant.Therefore,the full use of renewable energy instead of fossil energy,not only to achieve reduction.The effective measures to open the era of boiler and automobile cold emission are also the trend of the development of national environmental protection and energy strategy.展开更多
Citronellol is a kind of terpene produced by plants in response to external stress;thus can be used as a gas biomarker to detect black spot Ceratocystis fimbriata infection in sweetpotato.However,many contemporary ana...Citronellol is a kind of terpene produced by plants in response to external stress;thus can be used as a gas biomarker to detect black spot Ceratocystis fimbriata infection in sweetpotato.However,many contemporary analytical methods,exemplified by gas chromatography-mass spectrometry,are technically demanding,time-consuming,and require complex sample preparation procedures.In this study,a quartz crystal microbalance(QCM)-based gas sensor fabricated via a surface molecular imprinting technique was modified with a Co/Zn-ZIF@MIP composite,in which cobalt-zinc bimetallic ZIF(Co/Zn-ZIF)served as the support material.A linear relationship was observed between the frequency shift and citronellol concentrations ranging from 0.88 to 22 mg/L,with a sensitivity of−6.08 Hz/(mg·L)and a limit of detection(LOD)of 1.35 mg/L.This result indicated that this sensor has excellent selectivity for citronellol and demonstrates high repeatability,as evidenced by R^(2)value of 0.97.In evaluations with real samples,the sensor reliably identified citronellol among the complex volatile organic compounds(VOCs)emitted from black spot-infected sweetpotato,indicating a high level of selectivity.Our research achieved the rapid characterization of sweetpotato black spot disease within 4 min and provided new insights into the development of QCM-based gas sensors for the rapid assessment of agricultural product quality and safety.展开更多
基金supported jointly by the Public Project of Science Technology Department of Zhejiang Province(Grant No.2016C02050-9-9)to Y.Jiang and the Zhejiang Provincial Natural Science Foundation of China(Grant No.Y21C130006)to Y.Jiang,and the Key Research and Development Project of Zhejiang Province(Grant No.2021C02057)to G.Luo.
文摘Cultivating salt-tolerant crops is a feasible way to effectively utilize saline-alkali land and solve the problem of underutilization of saline soils.Quinoa,a protein-comprehensive cereal in the plant kingdom,is an exceptional crop in terms of salt stress tolerance level.It seems an excellent model for the exploration of salt-tolerance mechanisms and cultivation of salt-tolerant germplasms.In this study,the seeds and seedlings of the quinoa cultivar Shelly were treated with different concentrations of NaCl solution.The physiological,biochemical characteristics and agronomic traits were investigated,and the response patterns of three salt stress-responsive genes(SSRGs)in quinoa were determined by real-time PCR.The optimum level of stress tolerance of quinoa cultivar Shelly was found in the range of 250–350 mM concentration of NaCl.Salt stress significantly induced expression of superoxide dismutase(SOD),peroxidase(POD),and particularly betaine aldehyde dehydrogenase(BADH).BADH was discovered to be more sensitive to salt stress and played an important role in the salt stress tolerance of quinoa seedlings,particularly at high NaCl concentrations,as it displayed upregulation until 24 h under 100 mM salt treatment.Moreover,it showed upregulation until 12 h under 250 mM salt stress.Taken together,these results suggest that BADH played an essential role in the salt-tolerance mechanism of quinoa.Based on the expression level and prompt response induced by NaCl,we suggest that the BADH can be considered as a molecular marker for screening salt-tolerant quinoa germplasm at the early stages of crop development.Salt treatment at different plant ontogeny or at different concentrations had a significant impact on quinoa growth.Therefore,an appropriate treatment approach needs to be chosen rationally in the process of screening salt-tolerant quinoa germplasm,which is useful to the utilization of saline soils.Our study provides a fundamental information to deepen knowledge of the salt tolerance mechanism of quinoa for the development of salt-tolerant germplasm in crop breeding programs.
基金Supported by Key Special Scientific and Technological Project(Agriculture)of Zhejiang Province(2012C12902-3)
文摘China launched the potato staple food strategy in 2015. The potato staple food strategy focuses on increasing potato consumption and promoting potato production through processing and use of potato staple food. This provides new opportunity for development of potato in Zhejiang Province. This paper analyzed development strengths and existing problems of the potato industry in Zhejiang Province. On this basis,it came up with pertinent recommendations for potato staple food development in Zhejiang Province,so as to guide consumption with nutrition,and guide production with consumption,to provide theoretical foundation for development of potato industry in Zhejiang Province.
文摘The proper terminal disposal of organic solid waste such as domestic waste is a worldwide issue.Landfill covers a large area,with limited capacity,and a single landfill will be filled one day;incineration is costly to build and operate.These methods all need to transfer and centralized treatment,and secondary pollution is difficult to control,against the purification law of the nature."NIMBY effect"is very serious,and the social cost of treatment is increasing,becoming a heavy financial burden."The Distributed Waste Pyrolysis Cold Emission Energy Station"developed by Hunan Zhongzhou Energy-Saving Technology Co.,Ltd.overcomes these disadvantages and constructs a more appropriate environmental economic industrial chain for the treatment of organic solid waste such as urban and rural household waste.Based on its technical characteristics,this paper compares it with waste incineration power generation project in the aspects of secondary pollution control,treatment effect,energy utilization,investment and operation economy,etc.
文摘A sharp rebound in global energy emissions in 2018 is disappointing as the carbon-dioxide data monitored by mon ppm,hawaii reached 415.09 on may 3,the highest level in at least 800,000 years.We are well known to emit 0.272 kg of carbon dust,0.997 kg of carbon dioxide(C02),0.03 kg of sulfur dioxide(S02),0.015 kg of nitrogen oxides(NOX)and huge amounts of heat to the earth for each electricity we use a 1 degree thermal power plant.Therefore,the full use of renewable energy instead of fossil energy,not only to achieve reduction.The effective measures to open the era of boiler and automobile cold emission are also the trend of the development of national environmental protection and energy strategy.
基金support of the Earmarked Fund for CARS-10-Sweetpotato,China,the National Foundation of Nature and Science of China(Nos.32102083 and M2242001)the Natural Science Foundation of Shandong Province of China(Nos.ZR2021QC204 and ZR2022MC196).
文摘Citronellol is a kind of terpene produced by plants in response to external stress;thus can be used as a gas biomarker to detect black spot Ceratocystis fimbriata infection in sweetpotato.However,many contemporary analytical methods,exemplified by gas chromatography-mass spectrometry,are technically demanding,time-consuming,and require complex sample preparation procedures.In this study,a quartz crystal microbalance(QCM)-based gas sensor fabricated via a surface molecular imprinting technique was modified with a Co/Zn-ZIF@MIP composite,in which cobalt-zinc bimetallic ZIF(Co/Zn-ZIF)served as the support material.A linear relationship was observed between the frequency shift and citronellol concentrations ranging from 0.88 to 22 mg/L,with a sensitivity of−6.08 Hz/(mg·L)and a limit of detection(LOD)of 1.35 mg/L.This result indicated that this sensor has excellent selectivity for citronellol and demonstrates high repeatability,as evidenced by R^(2)value of 0.97.In evaluations with real samples,the sensor reliably identified citronellol among the complex volatile organic compounds(VOCs)emitted from black spot-infected sweetpotato,indicating a high level of selectivity.Our research achieved the rapid characterization of sweetpotato black spot disease within 4 min and provided new insights into the development of QCM-based gas sensors for the rapid assessment of agricultural product quality and safety.
