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Table of Content

    20 August 2020, Volume 41 Issue 08
     Treatment Effects of Ectopic Microbial Fermentation on Layer Hens Waste
    LI Lu-yao, LI Jia-bin, FENG Shuo, SONG Ting-ting, ZHANG Yan-rong, ZHU Chang-xiong, GENG Bing
    2020, 41(08):  473-482.  doi:10.3969/j.issn.1000-6362.2020.08.001
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     In order to provide theoretical basis for application of microbial ectopic fermentation system technology and solve the environmental pollution problem of laying hens, microbial ectopic fermentation system was used to treat the waste produced from layer breeding and to reduce environmental pollution. The specific procedures were mixed corn straw and coconut shell according to the mass ratio of 2:1, evenly added microbial agents as the ectopic fermentation system material. The initial moisture and thickness of the litter were adjusted to 51.97% and 60cm, respectively, and filled it in the ectopic fermentation system. After 4 days of pre-fermentation, laying hens breeding waste was treated by the ectopic fermentation system. From the beginning of the experiment on October 28, 2019 to the end of the experiment on January 8, 2020, the samples were taking from the upper layer (0-20cm), middle layer (20-30cm), and lower layer (30-40cm) in the different stage of experiment, further to explore the changes of physical and chemical properties, nutrients components and microbial quantities. The results showed that there were no significant differences in the temperature, moisture content, pH and conductivity of different packing layers in the ectopic fermentation system. The maximum temperature of the fermentation system was between 50-75℃, the moisture content was between 45%-58% and the pH value was changed in the range of 6.10-8.97, and the conductivity showed a trend of continuous increase in the all experimental process. In the end of the experiment, the average pH of the litter was about 8.0, which could ensure the stable operation of the fermentation system. Compared with the beginning of the experiment, the TN, TP and TK contents of different layers of litter increased significantly in the end of the experiment (P<0.01), while the organic matter content and C/N showed a decreasing trend. The organic matter content was insignificant difference and the C/N was significant (P<0.01). The absorption coefficients of the litter for wastewater and feces was 1.05 and 3.50, respectively in the end. The fermentation system was dominated by bacterial activity, followed by actinomycetes. The nutrient content of the fillers was in accordance with the standards of NY525-2012 for total nutrients and organic matter mass fractions. This fermentation system can effectively degrade and absorb layer breeding waste.
     Effect of Humic Acid as Initiating Solution on Seed Germination of Summer Squash under Low Temperature Stress
    CHANG Jia-yue,LI Ling-zhi,LI Hai-ping,MA Tai-guang,ZHANG Guo-xiang, GAO Qing-lan,LIANG Yun-xiang,LI Fa-yuan,WANG Yan-fang
    2020, 41(08):  483-494.  doi:10.3969/j.issn.1000-6362.2020.08.002
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     Summer squash is an annual trailing herbaceous crop of cucurbit. Its fruit is thin in skin, thick in meat, rich in juice, rich in nutrients, and can be eaten as vegetables, which is deeply loved by the public. In production, summer squash can get higher economic benefits when cultivated out of season in winter-spring season, and temperature is the main limiting factor in winter-spring cultivation, so improving the cold resistance of summer squash seedlings is the key to ensure the production benefits of summer squash in winter-spring season. Seed initiation is a simple and quick means to improve seed germination vigor and enhance seedling quality under stress conditions. As a natural organic polymer mixture, humic acid can affect various physiological activities in crops and stimulate crop growth, which has high application value in agriculture and is an excellent seed initiator. In order to explore the effect of humic acid initiation on seed germination and seedling growth of summer squash at low temperature, 0.05% fulvic acid (FA), humic acid (HA) and biochemical humic acid (BFA) were selected separately as initiation solutions, with deionized water caused by contrast, through the analysis of the germination activity, indices of root and shoot, activity of antioxidant enzyme and content of osmotic regulators and peroxides of summer squash under low temperature stress, application of humic acid cause raised summer squash seed resistance to low temperature stress. The results showed that the humic acid cause could improve under low temperature stress summer squash seed germination rate, germination potential, germination index and vigor index, ease to summer squash seed germination inhibition in low temperature, increase seedling bud high, hypocotyl diameter, radicle length, plant dry weight and root cap ratio, at the same time promote seedling lateral root meristem, making branch root diameter, forks and tips, total root length, root surface area and volume also increased, to some extent promote the summer squash seedlings growth, improve the quality of the summer squash seedlings under the condition of low temperature. Humic acid cause summer squash seedlings could improve the low temperature in the content of soluble sugar, soluble proteins and proline, enhance seedling low temperature adaptability, and could improve the seedling superoxide dismutase (SOD), peroxidase (POD) and catalase (CAT) activity and lower malondiadehyde (MDA) and superoxide anion free radical content, improving oxidation resistance of the summer squash seedlings. Among them, biochemical humic acid induced the most obvious mitigation effect on low temperature injury of summer squash.
     Effects of the Carboxin from Seed Coating Formulation on the Cotton Seed Germination Characteristics under Low Temperature Stress
    ZHOU Xiao-yun,LIU Meng-li,LI Jin,ZHANG Jun-gao,LIANG Jing,DU Peng-cheng,WANG Li,ZAI Meng-hua,GAN En-xiang,GAO Wen-wei,LEI Bin
    2020, 41(08):  495-505.  doi:10.3969/j.issn.1000-6362.2020.08.003
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     Xinjiang, as the largest cotton producing?area in China, often suffer from low temperature meteorological disasters such as “late spring cold” in cultivation, which leads to different degrees of rotten seeds, rotten buds and dead seedlings every year, resulting in “difficult emergence and seedling protection”, affecting cotton growth and development and yield and quality formation. With the development of seed coating technology, the above problems of “difficult emergence and seedling protection” in cotton field in normal years have been effectively solved by coating cotton seeds with seed coating formulation. However, it is still difficult to ensure a high rate of seedling conservation in the field in the year with serious low temperature damage, so it is urgent to study new technologies and products to improve the low temperature tolerance of cotton seedling. In addition, carboxin is a succinate dehydrogenase inhibitor fungicide, which has the function of internal absorption and conduction in the plant. Its mechanism is mainly to inhibit the activity of succinate dehydrogenase of pathogenic bacteria, result to interfere with its respiration, hinder energy metabolism, inhibit the growth of pathogenic bacteria, and cause its death, so as to achieve the purpose of disease control. Recent studies have shown that the treatment with carboxin coating plays a major role in control on cotton seedling damping-off?disease, and can promote the growth of cotton, and can also enhance the ability of the field cotton seedlings to tolerante cold stress. But, it is not clear about the effect of carboxin on the germination of cotton seeds, especially the effect of carboxin on the germination characteristics of cotton seeds under low temperature stress. Therefore, in order to reduce the influence of low temperature stress on the germination ability of cotton seeds, the effects of the carboxin from seed coating formulation on the cotton seed germination characteristics under low temperature stress was explored. In this study, ‘Xinluzao 50’ cotton seeds coated with six gradients of carboxin, which were 0 (inert component only), 4.2%, 5.7%, 7.2%, 8.7% and 10.2%, were sown in plastic boxes with sand and were exposed to four temperature treatments at 25℃, 18℃, 15℃ and 12℃.The uncoated cotton seeds exposed to the same temperature treatments served as the control group (CK). Sand?culture?was?adopted?to?study?the effect of carboxin on the germination and dry matter transfer of cotton seeds under low temperature stress to explore the effect of carboxin on improving the cold resistance of cotton. The results showed that the germination index of cotton seed uncoated was the highest under normal temperature (25℃), and the germination rate was 80.5%. The germination index of cotton seed uncoated decreased with the decrease of temperature, which indicated that the germination index of cotton seed was seriously affected by low temperature stress, while the germination index of cotton seed coated with carboxin was the highest under normal temperature (25℃), and the germination rate was 96.0%. With the decrease of temperature, the germination indices of all treatments with coating with carboxin decreased slowly, which indicated that carboxin could obviously alleviate the damage of low temperature stress on seed germination.Under the same temperature, with the increase of the content of carboxin in seed coating agent, the other indices increased first and then decreased, except the respiratory consumption of seeds decreased first and then increased. The germination process of cotton seeds coating with carboxin was 2?4 days earlier than that in the treatment of seed uncoated and seed coating without carboxin; the seed vigor and growth of the treatment without carboxin was lower, and the fresh weight was significantly reduced, resulting in the dry matter accumulation was also significantly reduced; the average adversity resistance coefficient of the treatment uncoated cotton seeds and without carboxin coated cotton seeds was only 0.68 and 0.70, respectively, while that of the treatment with carboxin was 0.73?0.91. Our results showed that carboxin could enhance the seed vigor, advance the germination process, increase the germination rate and promote the growth of seedlings, and enhance the ability of seedlings to resist damage from the low-temperature climate during the germination period of cotton.
     A General Model for Estimating Leaf Area Index of Maize
    LUAN Qing, GUO Jian-ping, MA Ya-li, ZHANG Li-min, WANG Jing-xuan
    2020, 41(08):  506-519.  doi:10.3969/j.issn.1000-6362.2020.08.004
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     In order to build a more general model for estimating leaf area index of maize, in this paper, we used the staged seeding test data (based on the local actual field sowing date, the first sowing date was 10 days earlier than normal, the second sowing date was normal, the third sowing date was 10 days later, and the fourth sowing date was 20 days later) with different varieties of maize in six agro-meteorological experiment stations in 2018, including Harbin of Heilongjiang province, Yushu of Jilin province, Jinzhou of Liaoning province, Wulanwusu of Xinjiang province, Xifeng of Gansu province and Gucheng of Hebei province. Taking the relative integrated temperature of the first, third and fourth sowing period as independent variables and the relative value of leaf area index (RLAI) as the dependent variable, the modified Logistic equation was used to construct the estimation model of maize leaf area index. The fitting curve of the model showed that the simulated RLAI in the three-leaf stage and the seven-leaf stage of maize were higher than the measured RLAI, and a significant linear correlation between the residual of the model in these two stages and the relative values of the effective integrated temperature. Therefore, the relative values of the effective integrated temperature were used to fix the residuals of the model in these two stages. The model was tested using the data of 8 different varieties in six agro-meteorological experiment stations in 2018 and 3 agro-meteorological experiment stations (Yushu of Jilin province, Xifeng of Gansu province and Tai’an of Shandong province) in 2019. The results showed that the RLAI fitting curve with the relative integrated temperature of the multi-attribute varieties of maize as independent variables was completely in line with the modified Logistic equation. The model fitting coefficient of determination (R2) reached 0.93, and passed the significance test of 0.01 level with high accuracy. The test results showed that the simulated RLAI of different varieties of maize had a high correlation with the measured RLAI. The correlation coefficient exceeded 0.9 and passed the significance test of 0.01 level. The average relative error of different varieties ranged from 13.8% to 27.6%. The average relative error between simulated RLAI and measured RLAI at different growth stages was between 9.4% and 30.7%, with the highest in the seven-leaf stage and the lowest in the milk-ripe stage. In general, the estimation model constructed based on relative values, eliminated the differences in maize variety attributes, soil properties, management measures, planting density, etc. It has a wider applicability than the previous LAI estimation model based on single station, single variety, single sowing period, or multiple varieties in single station, is suitable for most varieties LAI simulation of maize.
     Climate Suitability Zoning of Blueberry in Fujian Province
    XIAO Xiu-zhu, LIU Jia-ming, SUN Chao-feng, CHEN Jia-jin
    2020, 41(08):  520-528.  doi:10.3969/j.issn.1000-6362.2020.08.005
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     Planting blueberries not only can obtain high economical benefits, but also can improve the planting system of fruit in Fujian to promote the development of modern agriculture and increase the income of fruit farmers. Currently, there is no climatic suitability zoning of blueberry in Fujian. Consequently, it is necessary to study climate suitability zoning of blueberry in Fujian. Authors take advantage of the 66 national meteorological station data from 1960 to 2018 and the geographic information data in Fujian to analyze climate suitability zoning of blueberry, and other literature review data are used for reference. According to the ecological conditions required for blueberry based on the actual situation,climatic indices of the accumulated cold temperature in dormant period, the low temperature index during flowering period, and precipitation during fruit development stage are selected as the indicators of climate suitability zoning for blueberry growing in the study area. The weight of each index factor is calculated by the mathematical statistics methods such as normalization method and weight-coefficient methods. The climate suitability zoning of blueberry planting is obtained by the weight superposition analysis. The map of the suitability zoning of blueberry planting is drawn on the GIS platform with the aid of spatial analysis techniques. The results show that the coastal areas in the south of Fuqing is not suitable for blueberry planting since the accumulated cold temperature is inadequate; Nanping, Sanming, and the middle with high-altitude area of Longyan are sub-suitable area for blueberry planting, since the accumulated cold temperature could meet blueberries’ deed for dormancy, while requiring effective cold and frost protection measures from the high frequency of the low temperature freezing damage in spring. The landlocked of Ningde, Fuzhou, Putian and the low-altitude areas of Nanping, Sanming, Longyan are the most climate suitable planting areas for the long-term accumulation of cold temperatures, low frequency of freezing damage in spring, and suitable precipitation in rainy seasons.
     Data Fusion and Evaluation of Soil Moisture Products from FY-3B/3C Microwave Remote Sensing in Inner Mongolia
    JIANG Shao-jie, SONG Hai-qing, LI Yun-peng, PAN Xue-biao, JIANG Hui-fei
    2020, 41(08):  529-538.  doi:10.3969/j.issn.1000-6362.2020.08.006
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     Soil moisture is one of the most important components of land-atmosphere coupling system, and soil moisture monitoring plays a significant part in climate, hydrology, and agriculture. Active microwave and passive microwave are two basic microwave approaches which are used to monitor soil moisture. As of now, the passive microwave method is widely used due to its longer wavelengths and stronger penetrating power. It was considered that the passive microwave retrieved method could work well in effectively monitoring spatial and temporal changes of soil moisture in large-scale areas. However, the data retrieved by satellites needs further evaluation and verification. At present, various microwave methods have been proposed for soil moisture retrieve, and a number of corresponding soil moisture products have also been published. Compared to station-based data, remote sensing data can better reveal the dynamic change of soil moisture in a certain region at grid points. Based on the observed data of station-based soil moisture at the upper soil layer (0-10cm) during the growing season (May-October) in 2018, this paper collected and examined the remote senescing datasets from FY-3B, FY-3C, ASMR2 and SMOS which were consistent with the station-based data in time and space. Furthermore, the applicability of FY-3B/3C fusion in different regions of Inner Mongolia was evaluated, which may provide a reliable scientific basis for the application of soil moisture products based on Fengyun Satellites and other related researches. The ascending and descending data of FY-3B and FY-3C were fused respectively by employing weighted average method. In order to evaluate and compare the applicability of remote senescing datasets from AMSR2, FY-3B/3C and SMOS in Inner Mongolia, FY-3B/3C datasets were then formed by random forest method. The results showed that daytime data were of better quality than night data of FY-3B ascending/descending and FY-3C ascending/descending. The data quality of fused FY-3B and FY-3C processed by weighted average method exhibited no significantly improved. And the data quality of FY-3B/3C products formed by random forest models was significantly enhanced. In the rainy season of high vegetation coverage area (NE), the quality of FY-3B/3C data products were better than those of SMOS and AMSR2. Overall, in Inner Mongolia,SMOS is more applicable in Middle (M) and Southeast (SE) regions, AMSR2 has poor applicability in the whole region, while FY-3B/3C performs the best.