[Objective] The aim was to explore effects of soil moisture on dry matter accumulation and distribution and growth of kai-lan. [Method] In the context of the same irrigation frequency, the influence of irrigation maxi...[Objective] The aim was to explore effects of soil moisture on dry matter accumulation and distribution and growth of kai-lan. [Method] In the context of the same irrigation frequency, the influence of irrigation maximum was researched on growth rate, net assimilation rate, and dry matter distribution of kai-lan. [Result] The results showed that regulation on soil moisture extremely significantly affected accumulation of photosynthate. When soil moisture was insufficient, the growth term from seedling to mature extended and growth rate declined sharply. Besides, the growth term was of extremely significant negative correlation with growth rate. Meanwhile,leaf assimilation rate decreased considerably. For example, when soil moisture was65%, distribution of dry matter in plant organs tended to be rational. [Conclusion]Deficit irrigation would significantly lower growth rate, and improve dry matter distribution in organs and economic yield and quality of kai-lan.展开更多
[Objective] This study was conducted to investigate the effect of soil moisture on the growth and water utilization of Chinese kale. [Method] The law of water absorption and utilization of Chinese kale was researched ...[Objective] This study was conducted to investigate the effect of soil moisture on the growth and water utilization of Chinese kale. [Method] The law of water absorption and utilization of Chinese kale was researched under the same irri- gation frequency and different irrigation maximums. [Result] Soil water deficit re- duced water contents in plants in seedling stage and in plants and various organs in maturation stage; water consumption of individual plant was the lowest in 55% treatment of soil A and 45% treatment of soil B, which showed the values of 2.244 and 2.235 L/plant, respectively, and saved water by 23.91% and 21.14% compared with CK; water use efficiencies of soil A with a water content of 55% and soil B with a water content of 35% were the highest, i.e., 6.043 and 5.958 g/L, which were higher than that of CK by 20.09% and 41.72%, respectively; and regulated deficit irrigation also improved irrigation water productivity, and the two kinds of soil both showed in 75% treatments the highest irrigation water productivities, i.e., 40.44 and 40.49 g/L, which were higher than that of CK by 5.64% and 13.39%, respec- tively. [Conclusion[ Controlling irrigation maximum could save water consumed by Chinese kale, improve water use efficiency and improve yield and quality.展开更多
In order to explore the soil nutrient characteristics and put forward the improvement measures, a field experiment was arranged and performed. The experiment was conducted to evaluate the pH value and primary nutrient...In order to explore the soil nutrient characteristics and put forward the improvement measures, a field experiment was arranged and performed. The experiment was conducted to evaluate the pH value and primary nutrient status in blueberry garden soil by means of collecting 21 soil samples from the main production base of blueberries in Qingdao, according to the specific requirements of blueberries for soil pH and organic matter and the second national soil survey nutrient classification standard. Results showed that the blueberry garden soil had the following characteristics: acidic soil, low organic matter content with significant differences among different bases, moderate total nitrogen and alkaline hydrolysis nitrogen contents, high available phosphorus content and above moderate available potassium content. Then, it is found that the primary causes were the differences in soil basic fertility, excessive use of sulfur, inadequate inputs of organic matter, not thorough soil improvement, and imperfect fertilizer management in the blueberry gardens. Finally, the corresponding improvement measures were put forward, for example, increasing organic fertilizer and organic matter covering, as well as the application of CaCO_3 and formulated fertilization.展开更多
The adsorption of methylene blue (MB) on three soil amendments,red mud from Hungary, rd mud from UK and beringite from Belgium, wasstudied to determine the surface areas of the amendments using a0.005 mol L^-1 NaCl so...The adsorption of methylene blue (MB) on three soil amendments,red mud from Hungary, rd mud from UK and beringite from Belgium, wasstudied to determine the surface areas of the amendments using a0.005 mol L^-1 NaCl solution and deionised water as backgroundsolutions. The surface areas determined by the methylene blue methodin the 0.005 mol L^-1 NaCl solution were 3.357, 2.340 and 5.576 m^2g^-1 for red mud (Hungary), red mud (UK) and beringite, respectively,slightly lower than those in the deionised water system.展开更多
The responses of three cultivars of Chinese cabbage (Brassica chmensis L.), one of the main vegetable crops in China, to different ratios of NH4+-N/NO3--N was investigated to find the optimal ratio of ammonium to nitr...The responses of three cultivars of Chinese cabbage (Brassica chmensis L.), one of the main vegetable crops in China, to different ratios of NH4+-N/NO3--N was investigated to find the optimal ratio of ammonium to nitrate for maximal growth and to explore ways of decreasing the nitrate content, increasing nitrogen use efficiency of Chinese cabbage, and determining distributions of nitrogen and carbon. Three cultivars of Chinese cabbage were hydroponically grown with three different NH4+-N/NO3--N ratios (0:10…展开更多
"Austin" and "Climax" rabbiteye blueberries (Vaccinium ashei) grown on two soil types in Columbia, AL were studied during 2009-2010 to evaluate the effect of soil quality on blueberry vegetative growth, yield, a..."Austin" and "Climax" rabbiteye blueberries (Vaccinium ashei) grown on two soil types in Columbia, AL were studied during 2009-2010 to evaluate the effect of soil quality on blueberry vegetative growth, yield, and fruit characteristics. The site previously used for peanut production had 2% organic matter, a high soil pH, and a high phosphorus level, while the site previously left to pasture had twice as much organic matter, lower pH and phosphorus. Both cultivars had greater fruit set when grown on pasture land in comparison to the same cultivars grown on old crop land. Pasture land grown "Austin" and "Climax" plants produced as much as three times greater yields than the same cultivars grown on old crop land, and were more vigorous in comparison with plants grown on old crop land. Higher plant vigor and yields may be a result of the alleviation of establishment stress provided by the higher organic content found on the pasture land soil. Proper soil amendment prior to planting may serve to improve some of the differences in rabbiteye blueberry plant performance during the years of establishment.展开更多
Phytoremediation is a new technique for cleaning contaminated soils. This method in comparison with the other techniques is very simple and low cost. Among the pollutants, heavy metals and specially cadmium (Cd) is ...Phytoremediation is a new technique for cleaning contaminated soils. This method in comparison with the other techniques is very simple and low cost. Among the pollutants, heavy metals and specially cadmium (Cd) is very important because of its high movement in soil and high toxicity. Bioavailability of metals in the soil is affected by various factors including saline solution. In fact there are symptoms for increasing Cd uptake due to increasing C1"1 concentration in soil solution. The objective of this study was to investigate the effect of saline irrigation water on cadmium uptake and remediability of soil with Brassica napus (rapeseed) in greenhouse experiment. Saline waters of 0, 1.5 and 2.5 dS/m was applied on soil with different concentrations of Cd (5, 10, 20, 30 and 50 ppm) during the cultivation period of Okapi (fall rapeseed variety). The results of this study showed that there are no significant differences in shoot dry matter exposed to Cd, but root dry matter decreased with increasing Cd concentration (p〈5%). Salinity had a significant effect (p〈l%) on Cd concentration in roots and increased from 26.83 (in control) to 36.46 mg.kg-1 dry wt (in 2.5 dS.m"l treatment). The significant effect (p〈5%) was found in shoots as well and the Cd uptake was increased from 2.14 to 3.25 mg.m^-1dry wt in control and 2.5 dS'm^-1 treatments respectively. Likewise, salinity increased bioaccumulation coefficient, whereas had no significant effect on transport factor. The obtained results showed that Cd metal tend to accumulate more in the roots ofBrassica napus than in the shoots.展开更多
The salt-resistant nitrogen-fixing cyanobacteria 888 was experimentally applied to the reclamation of saline and alkali soil in Songnen Plain in China. The pH, electrical conductivity (EC) and sodium adsorption ratio ...The salt-resistant nitrogen-fixing cyanobacteria 888 was experimentally applied to the reclamation of saline and alkali soil in Songnen Plain in China. The pH, electrical conductivity (EC) and sodium adsorption ratio (SAR) of different saline soils were studied and compared. Results show that different saline soils exhibit various physico-chemical properties. Saline-sodic soils in Songnen Plain are ameliorated by using nitrogen-fixing blue-green algae 888 in the experiment. It is indicated that cyanobacteria 888 can grow in saline and alkaline soils, and the conditions favorable for its growth are soil moisture of 50% and dry algae inoculation at 0.03 mg/cm2. The main actions of nitrogen-fixing cyanobacteria are keeping the adsorbability of rubber sheath for sodium, increasing the organic matter content of the soils and decreasing the pH and the degree of salinity in the soils. But the arid climate and soil depth are the main factors that limit the restoration of saline and alkaline soils.展开更多
基金Supported by Applied Research and Demonstration of Soil Moisture Measurementsbased Automatic Irrigation Technology in Vegetable Production(2015A020209068)+2 种基金Guangdong Province Science and Technology ProjectHigh-efficient Cultivation and Nonpoint Source Pollution Control in Typical Vegetable Fields-Farmland Comprehensive Treatment Technology Plan on Chemical Fertilizer Nonpoint Source Pollution(201502103)Special Fund for Agro-scientific Research in the Public Interest~~
文摘[Objective] The aim was to explore effects of soil moisture on dry matter accumulation and distribution and growth of kai-lan. [Method] In the context of the same irrigation frequency, the influence of irrigation maximum was researched on growth rate, net assimilation rate, and dry matter distribution of kai-lan. [Result] The results showed that regulation on soil moisture extremely significantly affected accumulation of photosynthate. When soil moisture was insufficient, the growth term from seedling to mature extended and growth rate declined sharply. Besides, the growth term was of extremely significant negative correlation with growth rate. Meanwhile,leaf assimilation rate decreased considerably. For example, when soil moisture was65%, distribution of dry matter in plant organs tended to be rational. [Conclusion]Deficit irrigation would significantly lower growth rate, and improve dry matter distribution in organs and economic yield and quality of kai-lan.
基金Supported by Science and Technology Planning Project of Guangdong Province:Application Research and Demonstration of Automatic Irrigation based on Testing Soil Moisture in Vegetable Production(2015A020209068)Special Fund for Agro-scientific Research in the Public Interest:Research on High-efficiency Vegetable Cultivation and Typical Vegetable Field Non-point Source Pollution Control Technique in South China,Comprehensive Technical Solution for Non-point Source Pollution by Chemical Fertilizer in Farmland(201502103)~~
文摘[Objective] This study was conducted to investigate the effect of soil moisture on the growth and water utilization of Chinese kale. [Method] The law of water absorption and utilization of Chinese kale was researched under the same irri- gation frequency and different irrigation maximums. [Result] Soil water deficit re- duced water contents in plants in seedling stage and in plants and various organs in maturation stage; water consumption of individual plant was the lowest in 55% treatment of soil A and 45% treatment of soil B, which showed the values of 2.244 and 2.235 L/plant, respectively, and saved water by 23.91% and 21.14% compared with CK; water use efficiencies of soil A with a water content of 55% and soil B with a water content of 35% were the highest, i.e., 6.043 and 5.958 g/L, which were higher than that of CK by 20.09% and 41.72%, respectively; and regulated deficit irrigation also improved irrigation water productivity, and the two kinds of soil both showed in 75% treatments the highest irrigation water productivities, i.e., 40.44 and 40.49 g/L, which were higher than that of CK by 5.64% and 13.39%, respec- tively. [Conclusion[ Controlling irrigation maximum could save water consumed by Chinese kale, improve water use efficiency and improve yield and quality.
基金Supported by Forestry Industry Research Special Funds for Public Welfare Projects(201204402)Spark Program(2014GA741014)Qingdao"Little Blue Big Man"Planning Program(2014GA741014)~~
文摘In order to explore the soil nutrient characteristics and put forward the improvement measures, a field experiment was arranged and performed. The experiment was conducted to evaluate the pH value and primary nutrient status in blueberry garden soil by means of collecting 21 soil samples from the main production base of blueberries in Qingdao, according to the specific requirements of blueberries for soil pH and organic matter and the second national soil survey nutrient classification standard. Results showed that the blueberry garden soil had the following characteristics: acidic soil, low organic matter content with significant differences among different bases, moderate total nitrogen and alkaline hydrolysis nitrogen contents, high available phosphorus content and above moderate available potassium content. Then, it is found that the primary causes were the differences in soil basic fertility, excessive use of sulfur, inadequate inputs of organic matter, not thorough soil improvement, and imperfect fertilizer management in the blueberry gardens. Finally, the corresponding improvement measures were put forward, for example, increasing organic fertilizer and organic matter covering, as well as the application of CaCO_3 and formulated fertilization.
基金National Natural Science Foundation of China(Nos.49831070 and 49971046).
文摘The adsorption of methylene blue (MB) on three soil amendments,red mud from Hungary, rd mud from UK and beringite from Belgium, wasstudied to determine the surface areas of the amendments using a0.005 mol L^-1 NaCl solution and deionised water as backgroundsolutions. The surface areas determined by the methylene blue methodin the 0.005 mol L^-1 NaCl solution were 3.357, 2.340 and 5.576 m^2g^-1 for red mud (Hungary), red mud (UK) and beringite, respectively,slightly lower than those in the deionised water system.
基金1 Project supported by the National Natural Science Foundation of China (No. 30270790).
文摘The responses of three cultivars of Chinese cabbage (Brassica chmensis L.), one of the main vegetable crops in China, to different ratios of NH4+-N/NO3--N was investigated to find the optimal ratio of ammonium to nitrate for maximal growth and to explore ways of decreasing the nitrate content, increasing nitrogen use efficiency of Chinese cabbage, and determining distributions of nitrogen and carbon. Three cultivars of Chinese cabbage were hydroponically grown with three different NH4+-N/NO3--N ratios (0:10…
文摘"Austin" and "Climax" rabbiteye blueberries (Vaccinium ashei) grown on two soil types in Columbia, AL were studied during 2009-2010 to evaluate the effect of soil quality on blueberry vegetative growth, yield, and fruit characteristics. The site previously used for peanut production had 2% organic matter, a high soil pH, and a high phosphorus level, while the site previously left to pasture had twice as much organic matter, lower pH and phosphorus. Both cultivars had greater fruit set when grown on pasture land in comparison to the same cultivars grown on old crop land. Pasture land grown "Austin" and "Climax" plants produced as much as three times greater yields than the same cultivars grown on old crop land, and were more vigorous in comparison with plants grown on old crop land. Higher plant vigor and yields may be a result of the alleviation of establishment stress provided by the higher organic content found on the pasture land soil. Proper soil amendment prior to planting may serve to improve some of the differences in rabbiteye blueberry plant performance during the years of establishment.
文摘Phytoremediation is a new technique for cleaning contaminated soils. This method in comparison with the other techniques is very simple and low cost. Among the pollutants, heavy metals and specially cadmium (Cd) is very important because of its high movement in soil and high toxicity. Bioavailability of metals in the soil is affected by various factors including saline solution. In fact there are symptoms for increasing Cd uptake due to increasing C1"1 concentration in soil solution. The objective of this study was to investigate the effect of saline irrigation water on cadmium uptake and remediability of soil with Brassica napus (rapeseed) in greenhouse experiment. Saline waters of 0, 1.5 and 2.5 dS/m was applied on soil with different concentrations of Cd (5, 10, 20, 30 and 50 ppm) during the cultivation period of Okapi (fall rapeseed variety). The results of this study showed that there are no significant differences in shoot dry matter exposed to Cd, but root dry matter decreased with increasing Cd concentration (p〈5%). Salinity had a significant effect (p〈l%) on Cd concentration in roots and increased from 26.83 (in control) to 36.46 mg.kg-1 dry wt (in 2.5 dS.m"l treatment). The significant effect (p〈5%) was found in shoots as well and the Cd uptake was increased from 2.14 to 3.25 mg.m^-1dry wt in control and 2.5 dS'm^-1 treatments respectively. Likewise, salinity increased bioaccumulation coefficient, whereas had no significant effect on transport factor. The obtained results showed that Cd metal tend to accumulate more in the roots ofBrassica napus than in the shoots.
基金Sponsored by the Major State Scientific and Technological Projects of Water Pollution Control and Treatment(Grant No.2008ZX07208-005)
文摘The salt-resistant nitrogen-fixing cyanobacteria 888 was experimentally applied to the reclamation of saline and alkali soil in Songnen Plain in China. The pH, electrical conductivity (EC) and sodium adsorption ratio (SAR) of different saline soils were studied and compared. Results show that different saline soils exhibit various physico-chemical properties. Saline-sodic soils in Songnen Plain are ameliorated by using nitrogen-fixing blue-green algae 888 in the experiment. It is indicated that cyanobacteria 888 can grow in saline and alkaline soils, and the conditions favorable for its growth are soil moisture of 50% and dry algae inoculation at 0.03 mg/cm2. The main actions of nitrogen-fixing cyanobacteria are keeping the adsorbability of rubber sheath for sodium, increasing the organic matter content of the soils and decreasing the pH and the degree of salinity in the soils. But the arid climate and soil depth are the main factors that limit the restoration of saline and alkaline soils.
