Table of Content

Volume 49 Issue 4
15 April 2020
Contents
Reviews
Crop Cultivation & Genetic Breeding
Agricultural Resources and Environment
Plant Protection
Horticulture
Animal Husbandry and Veterinary Medicine
Agricultural Information and Engineering and Agricultural Product Processing

Article List
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Contents

2020, 49(4):  0. 

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Reviews

Review on Activation and Regulation of CBF to Mediate Low-temperature Response in Plants

ZHAO Junli, CHEN Wen, SHI Min

2020, 49(4):  1-6.  DOI: 10.15933/j.cnki.1004-3268.2020.04.001

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Low temperature not only limits the growth and development of plants,but also limits the distribution of plants.To reduce the damage induced by low-temperature stress,plants evolve many mechanisms to resist cold stress through changing gene expression level and cellular environmental homeostasis.CBF(C-repeat binding transcription factor) plays critical roles in response to low temperature stress,and improves cold tolerance by altering the expression of cold regulated genes(COR).The functions of CBF and downstream genes regulated by CBF,the upstream genes that regulated CBF gene,and the interaction between CBF and hormones were reviewed,and the application prospect of CBF in agricultural production was raised.This review can lay the foundation for future study of crop cold tolerance mechanism,and provide theoretical reference for breeding of cold tolerant crops by gene engineering.


Crop Cultivation & Genetic Breeding

Effects of Sowing Method on Winter Wheat Yield and Soil Hydrothermal Conditions under Different Irrigation Conditions

DONG Fei, YAN Qiuyan, YANG Feng, JIA Yaqin, LI Feng, LU Jinxiu, ZHANG Jiancheng

2020, 49(4):  7-14.  DOI: 10.15933/j.cnki.1004-3268.2020.04.002

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To explore suitable water-saving sowing method and irrigation mode of winter wheat in Shanxi Province,multi-point test was conducted to study the effects of sowing methods[furrow sowing(T) and drilling sowing(L)] on yield and its components,nutrient absorption of winter wheat,soil temperature and water content under different irrigation conditions [ no irrigation(W₀)and irrigation once at jointing stage (W₀)].The results showed that compared with L treatment,aboveground dry weight,effective spikes number and plant height of T treatment significantly increased at the same experimental site;1 000-grain weight of T treatment significantly increased,while spike length and grains number per spike significantly decreased under W0 condition;winter wheat yield of T treatment significantly increased by 2.4%—16.9%. Irrigation could promote nutrient absorption of winter wheat under T treatment. Soil water storage increased by 8.9—19.9 mm under T treatment. In February,soil temperature decreased by 1.43—3.12℃ compared with L treatment,but soil temperature increased by 0.15—1.66℃ under T treatment compared with L treatment in other growth months.In conclusion,furrow sowing increased water storage and soil temperature,improved effective spikes number and yield,and could be used as a water-saving sowing technology for winter wheat production.


Effects of Long-term Integrated Rice-crayfish Model on Yield and Nitrogen Use Efficiency of Direct-seeding Rice under Different Nitrogen Application Rates

PENG Chenglin, YUAN Jiafu, JIA Ping’an, SI Guohan, XU Xiangyu, ZHAO Shujun, LI Jinhua

2020, 49(4):  15-21.  DOI: 10.15933/j.cnki.1004-3268.2020.04.003

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The effects of long-term integrated rice-crayfish model(CR) on the yield and nitrogen use efficiency of direct seeding rice under different nitrogen application rates were studied with monoculture mode of rice(MR) as control,and the best nitrogen application rates were determined under the two modes.The results showed that compared with MR model,the rice yield of CR model increased by 16.3%,which was mainly achieved by increasing the effective spike number.The partial productivity of nitrogen fertilizer,agronomic efficiency of nitrogen fertilizer and the apparent use efficiency of nitrogen increased by 15.3%,
7.6% and 22.7% under CR model compared with those under MR models respectively.The rational nitrogen fertilizer amounts for the direct-seeding rice determined by linear+platform model were 102.4 kg/ha and 139.6 kg/ha under CR and MR models respectively.The nitrogen fertilizer amount of the direct-seeding rice under CR model decreased by 26.6% compared with that under MR model.Therefore,the longterm CR model could significantly increase rice yield,reduce the application rate of nitrogen fertilizer and improve the use efficiency of nitrogen fertilizer.



Effects of Nitrogen Application Rates on Spring Wheat and Pea Growth,AMF Infection Rate and Spring Wheat Yield under Spring Wheat Intercropping with Pea

XUE Shitong, DONG Qi, DONG Zepeng, NIU Shuai, WANG Aiping

2020, 49(4):  22-28.  DOI: 10.15933/j.cnki.1004-3268.2020.04.004

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In order to clarify how to efficiently apply nitrogen fertilizer under spring wheat intercropping with pea,field experiment was conducted to study the effect of nitrogen application rates [0 (N0),90 kg/ha(N1),180 kg/ha(N2) and 270 kg/ha(N3,local normal dosage in Shanxi Province)] on growth of spring wheat and pea growth,arbuscular mycorrhizal fungi (AMF) infection rate,and spring wheat yield under spring wheat intercropping with pea.The results showed that the spring wheat of N3 treatment had the highest number of tillers at tillering stage.The plant height of spring wheat of the three nitrogen treatments was significantly higher than that of N0 treatment from jointing stage to maturity stage,especially N2 treatment.The plant height of pea of the three nitrogen treatments was higher than that of N0 treatment from the branching stage to mature stage,especially N2 treatment.At jointing stage and flowering stage,spring wheat had the highest SPAD value under N2 treatment,which was significantly higher than that of N0 treatment. From seedling stage to mature stage,SPAD value of pea was always the highest under N2 treatment.At spring wheat flowering stage,AMF infection rates of spring wheat and pea roots were maximum under N2 treatment,which were 14.7% and 25.3%,respectively.The spring wheat yields of N1,N2 and N3 treatments were 272.22 g/m²,315.94 g/m² and 255. 99 g/m² respectively,and there were significant differences between N1,N2 treatments and N0 treatment. Overall,the application of 180 kg/ha nitrogen could significantly increase the yield of spring wheat,and reduce the application rate of nitrogen fertilizer under this experiment condition.


Diurnal Variation of Photosynthetic Characteristics of Panicle Position Leaf during Filling Period and Difference of Silage Yield of Different Maize Varieties

BAI Lanfang, LU Zhanyuan, ZHANG Xiangqian, JIA Kai, WANG Yufen, SUN Hongju

2020, 49(4):  29-37.  DOI: 10.15933/j.cnki.1004-3268.2020.04.005

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Analysis of diurnal changes in photosynthetic characteristics,light response curves of panicle position leaf and silage forage yield,quality of Xianyu 335,Lihe 1,Dongyu 120,Jingke silage 301,Jinchuang 998 and Zhongxing silage 1,will provide a basis for high-yield and efficient cultivation of silage corn and selection of varieties in Hohhot.The results showed that except the daily photosynthetic rate of Lihe 1 being single-peak curve,the diurnal variation of photosynthetic rate of the other five maize varieties showed a bimodal curve.The diurnal variations of stomatal conductance of all varieties appeared a bimodal
peak.Diurnal variation of intercellular CO₂ concentration presented the variation tendency of “V” type.The light response curves of different maize varieties were well fitted (P<0.05).The maximum net photosynthesis rate [34.97 μmol/(m²·s)] of Zhongxing silage 1 was 3.70%—31.11% higher than other varieties by calculation.The forage silage yield of Zhongxing silage 1 was the highest,with the value of 60 601.53 kg/ha,followed by Lihe 1.All kinds of silage had good silage quality.Through comprehensive analysis,it can be seen that Zhongxing silage 1 and Lihe 1 are suitable for cultivation in Hohhot.



Study of Mechanical-transplanting Sugar Beet with Supplemental Irrigation in Cold and Arid Regions of Northwest Hebei Province

HU Lifeng, ZHANG Jizong, LIU Yuhua

2020, 49(4):  38-44.  DOI: 10.15933/j.cnki.1004-3268.2020.04.006

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Sugar beet is difficult to transplant because of the drought and cold conditions in the arid region of Northwest Hebei Province in early spring. To resolve this problem,we simulated the effects of humidifying soil with above and below-ground supplemental irrigation,investigated the dosage effects of water-retaining agent on growth and yield,and studied the effect of mechanized underground supplemental irrigation(USI).The results showed that the USI damped soil in an inverted cone shape that was advantageous to supply water for sugar beet seedlings.A USI device was invented by installing a nozzle controlled by solenoid valve on the duck-billed transplanter.This device enabled the mechanization of water supplementation in sugar beet transplantation.The combination of USI and water-retaining agent had achieved the sugar beet survival ratio of over 96%,increased the yield of sugar beet by 30.02%,reduced the water consumption for transplanting by 48.05%,and increased the labor efficiency by 1.8 times compared with traditional manual transplanting.This research realized the integration of agro-technique and agro-machine for successfully transplanting sugar beet in drought situation.


Agricultural Resources and Environment

Evaluation on Soil Nutrition and Environmental Quality of the Advantageous Ralls Apple Production Area of Huaizhuo Basin

WANG Aibin, XIE Jindou, YAN Shuai, ZHOU Hongyu

2020, 49(4):  45-54.  DOI: 10.15933/j.cnki.1004-3268.2020.04.007

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In order to understand the soil nutrition and environmental quality of the advantageous Ralls apple production area of Huaizhuo basin,soil nutrition and heavy metal element content in 9 large-scale Ralls apple orchards of Huaizhuo basin were detected and analyzed,and the environmental quality of soil was evaluated by methods of soil nutrient evaluation,single pollution index and comprehensive pollution index in 2015—2017.Moreover,some classification and evaluation were given on the soil nutrient level and environmental quality status.The results showed that,the average of organic matter content in the apple orchard soils of Huaizhuo basin was 37.25 g/kg,the averages of total N,available N,available P,available K contents were 1.62 g/kg,104.92 mg/kg,21.32 mg/kg,146.79 mg/kg,respectively,and the averages of available Ca,available Mg,available Fe,available Mn,available Cu,available Zn,available B contents were 1 191.35,308.86,6.03,11.12,0.87,1.35,1.13 mg/kg,respectively,so the nutrient content was at higher level.At the meantime,the contents of heavy metals were lower than the limited requirements by the national standards, so the soil environment quality was evaluated to a level of cleanliness. In summary,the soil quality level in Huaizhuo basin was suitable for the development of high quality Ralls apple.However,the contents of Cr,Hg and available Fe in some monitoring points were approaching early warning risk.It is recommended to regularly determine the soil environmental quality and develop soil remediation measures.



Isolation of Cellulase-producing Fungi and Screening of Highly Efficient Strains

SHAO Shuai, WANG Lingling, LIN Jian, XU Shiai, LI Yan

2020, 49(4):  55-61.  DOI: 10.15933/j.cnki.1004-3268.2020.04.008

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In order to isolate the highly efficient cellulose-degrading strain,a total of 24 fungi isolates were obtained from the decomposing fruit tree branches by using the dilution isolation method, with sodium carboxymethyl cellulose as the sole carbon substrate.Eight fungi strains were found to produce extracellular cellulase.Strains with larger hydrolytic circle/colony diameter in preliminary tests were selected to detect their celluase activities,and the results indicated strain 10 with highest activities.Its filter paper enzyme activity,endonuclease activity and exonuclease activity reached 13.26,36.67 and 12.06 IU respectively.Based on molecular and phylogenetic analyses, the strain was identified as Aspergillus terreus. Next the fermentation conditions through single factor optimizing were improved,and the optimal culture conditions for the three enzymes production were pH=7,the sodium carboxymethyl cellulose content=1.25%,and the sodium nitrate content=1.50%.After optimization,the filter paper enzyme activity,endonuclease activity and exonuclease activity reached 27.80,57.30,29.10 IU,which increased by 109.65%,56.26%,141.29% compared to pre-optimization,respectively.The highly efficient cellulase producing fungus strain 10 was provided for fruit branches fermentation and cellulase industrial development.


Effects of Plant Growth Promoting Rhizobacteria on Tobacco Uptake and Accumulation of Cd

LI Yilun, ZHANG Yanyan, YU Hao, YU Hui, YIN Quanyu, LI Benyin, LI Xuanzhen, LI Junpeng, WU Mingzuo

2020, 49(4):  62-71.  DOI: 10.15933/j.cnki.1004-3268.2020.04.009

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To explore the feasibility of tobacco remediation of Cd contaminated soil by plant growth promoting rhizobacteria,a pot experiment was conducted to compare the effects of four plant growth promoting rhizobacteria agents (Bacillus gelatinosus,Bacillus megaterium,You Yijun,Phtotsynthetic bacteria)on tobacco uptake and accumulation of Cd.The results showed that,all four plant growth promoting rhizobacteria agents promoted Cd content in the aboveground and underground parts of tobacco,and increased tobacco dry weight.Among them, the photosynthetic bacteria agent had the best effect. Compared to CK(no bacteria addtion treatment),photosynthetic bacteria increased the Cd content in the aboveground and underground parts of tobacco by 36.4%,52.4%,respectively,and increased the total uptake amount of Cd by 191.2%.In addition,it increased dry weight of the aboveground and underground parts of tobacco by 100.0%.Further analysis showed that,photosynthetic bacteria agent increased the available Cd content,and total nitrogen content in soil.In conclusion,photosynthetic bacteria agent is expected to be an important measure to strengthen tobacco-phytoremediation of Cd-contaminated soil.


Plant Protection

Study on Pathogenicity of Protein Toxin Secreted from Botrytics cinerea

KONG Qiong, YUAN Shengyong, LI Xun, XUE Chunli, LI Linqian, YU Chaoyang, YANG Hongyu

2020, 49(4):  72-77.  DOI: 10.15933/j.cnki.1004-3268.2020.04.010

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Botrytis cinerea was a serious pathogen for plants. In order to provide the reference for studying pathogenic mechanism and control measures of Botrytis cinerea,the pathogenicity and host speciality of protein toxin secreted from Botrytics cinerea were determined with plants from 23 species in 16 families.The results showed that 17 species of plant were damaged by protein toxin,accounting for 73.91% of total plants,the pathogenicity of the toxin was stronger to Hippeastrum rutilum of Amaryllidaceae and Capsicum annuum of Solanaceae,and the lesion areas were respectively(2.18±0.44),(0.81±0.33) cm² after 7 days of inoculation,followed by Schefflera octophylla of Araliaceae,Dendranthema morifolium and Lactuca sativa of Compositae,Lycopersicon esculentum and Nicotiana tabacum of Solanaceae,Vicia faba and Pisum sativum of Leguminosae.The protein toxin could significantly inhibit seed germination and plantule growth of seven plants,such as Brassica pekinensis of Cruciferae,Vicia faba and Pisum sativum of Leguminosae,Lycopersicon esculentum of Solanaceae.Therefore,the host of Botrytis cinerea was wide,and its protein toxin was pathogenic with a non-host specificity.


Effect of Adding Biochar in Soil on Resistance of Maize Seedling to Sheath Blight

GUO Huaigang, FU Dongbo, LIN Junjun, WANG Zhihui, YIN Dawei, XU Jingyu, LI Zuotong, ZHAO Changjiang

2020, 49(4):  78-86.  DOI: 10.15933/j.cnki.1004-3268.2020.04.011

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In order to clarify the effect of adding biochar in soil on maize sheath blight resistance,and to reveal the physiological mechanism of biochar increasing disease resistance, by adding 0 (B0), 1%(B1),5% (B5),9% (B9) biochar to indoor potted soil,two-point inoculation of Rhizoctonia solani was carried out using the leaf sheath toothpick embedding method and leaf insect needle fixing method to study the disease incidence of maize seedlings and changes in physiological indicators.The results showed that the disease incidence of maize plants with biochar added was milder than that of maize with no biochar.Compared with non-inoculated plants,the plant height,root length,plant fresh weight,root fresh weight,plant dry weight and root dry weight of B0,B1,B5,and B9 treated plants were decreased by 13.8%—18.6%, 9.3%—40.2%, 22.2%—28.3%, 20.4%—38.2%, 30.8%—43.3%, 25.9%—41.2%,and the decrease of B1 treatment was lower.At the same time,the MDA content and relative conductivity in the inoculated plants showed an increasing trend with the extension of the inoculation time.At 72 h,B0—B9 treatment increased by 77.1%—119.1% and 106.0%—165.7% compared with 0 h,and the increase value was relatively smaller in B1 treatment.Compared with 0 h after inoculation,the production rate of superoxide anion in maize treated after 72 h of B0—B9 increased by 43.2%—69.1%,and the content of H₂O₂ increased by 30.2%—53.1%.The activities of SOD,POD,CAT,and APX increased significantly,the SOD activities of B0,B5,and B9 treatments increased by 19.9%—34.5% at 48 h after inoculation, the activities of POD, CAT, and APX at 72 h after inoculation respectively increased by 21.8%—126.0%,13.7%—60.3%,and 112.9%—223.2% in B0—B9 treatments.In summary,the addition of biochar to the soil could alleviate the adverse effect of Rhizoctonia solani infection on the phenotypic traits of maize seedlings,enhance the activity of antioxidant enzymes,and reduce membrane lipid peroxidation damage.Thus,the resistance of maize seedlings to sheath blight was strengthened,and the addition of 1% biochar increased the resistance of maize seedling best.



Sensitivity of Tobacco Pathogens and Their Biocontrol Strains to Dimethomorph

GUO Jing, TANG Lingling, ZHAO Shimin, LI Shujun, KANG Yebin

2020, 49(4):  87-92.  DOI: 10.15933/j.cnki.1004-3268.2020.04.012

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To identify the sensitivity of the main soil-borne pathogens of tobacco such as Phytophthora nicotianae and their candidate biocontrol strains such as Trichoderma harzianum to dimenthomorph,mycelium growth rate method,spore inhibition method,dilution-plate method were used to determine the inhibitory effect of dimethomorph on mycelium growth of P.nicotianae,Pythium aphanidermatum,Rhizoctonia solani,Fusarium solani,T.harzianum,sporangia production of P.nicotianae and conidia differentiation of T.harzianum,and on Bacillus subtilis,Streptomyces aureoverticillatus.The results showed that dimethomorph had a significant inhibitory effect on mycelium and sporangia of P.nicotianae,and the EC50 value of its mycelium growth was 0.467 6 μg/mL;and it had no strong effect on P.aphanidermatum,R.solani,F.solani,T.harzianum,B.subtilis,S.aureoverticillatus.Therefore,dimethomorph can be mixed with the candidate biocontrol strains to control tobacco black shank.


Horticulture

Bioinformatics Analysis of BrROP Gene Family in Chinese Cabbage

YAN Min, WANG Han, LIU Shaohua, GU Xiaomin, XU Ye

2020, 49(4):  93-100.  DOI: 10.15933/j.cnki.1004-3268.2020.04.013

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To reveal the function and phylogenetic relationship of the BrROP gene family in Chinese cabbage,bioinformatics methods were used to identify the BrROP gene family members of Chinese cabbage, and the gene structure, protein sequence, chromosomal distribution, conserved domain,phylogenetic relationship and expression pattern were systematically analyzed.The results showed that 22 BrROP genes were identified in the Chinese cabbage genome,which were unevenly distributed on the chromosome of Chinese cabbage.Amino acid sequence analysis indicated that the structure of BrROP protein was conserved,including G domain(G1-G5),effector binding site,Rho insert region and Cterminal hypervariable region.According to the phylogenetic analysis,BrROP genes were divided into four categories,GroupⅠ,GroupⅡ,Group Ⅲ and Group Ⅳ.The expression of BrROP genes was analyzed using the EMBL-EBI database.22 BrROP genes were differentially expressed in root,stem,leaf,flower and silique.


Cloning and Expression Analysis of CsCER4 Gene Related to Wax Synthesis in Cucumber

GONG Siyu, YU Yue, GUO Dongxue, DU Yalin, HAO Ning, WU Tao

2020, 49(4):  101-106.  DOI: 10.15933/j.cnki.1004-3268.2020.04.014

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The homologous gene of Arabidopsis thaliana CER4 regulating wax synthesis and metabolism was cloned from South China cucumber 649 and named as CsCER4.The CsCER4 gene had a CDS region with 540 bp in length and encoded 179 amino acids.Promoter sequence analysis indicated that the CsCER4 promoter had regulatory elements related to various stresses such as drought,cold,and salt.Phylogenetic analysis showed that cucumber CsCER4 was closely related to CER4 of melon,bitter gourd,pumpkin and zucchini.The results of qRT-PCR showed that CsCER4 had high expression level in ovary and pericarp,and
its expression level was low in male flowers,stems and leaves.It was speculated that CsCER4 might directly participate in or affect the synthesis of wax by regulating the wax synthesis pathway.


Effects of Different Plastic Film Mulching Methods on Plant Growth and Yield of Facility Cultivation Capsicum

CHEN Liang, ZHANG Xiaoling, WANG Cuili, ZHANG Xiangping, LI Yanrong, ZHANG Jing, YANG Shimei

2020, 49(4):  107-113.  DOI: 10.15933/j.cnki.1004-3268.2020.04.015

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To evaluate and discuss the applicability and application effect of ridging and double plastic film mulching in Hexi oasis irrigation district greenhouse,three treatments were designed,single layer plastic film mulching on the ridge,single layer plastic film mulching on the ridge bottom,and double-layer plastic film mulching,taking no film mulching as the control,the furrow irrigation water and fertilizer supply mode was adopted,and effects of different plastic film mulching methods on plant growth and yield of facility cultivation capsicum were studied.The results showed that the plant height,stem diameter,main root length,dry and fresh weight of the aboveground and underground part and yield of the ridge surface plastic film mulching treatments were significantly higher than those of the control during the whole growth period,and the root-shoot ratio was significantly lower than that of the control during the whole growth period; At the maturity stage,the plant height of the double-layer plastic film mulching treatment was 9.46% and 5.82% significantly higher than that of the single layer plastic film mulching on the ridge and single layer plastic film mulching on the ridge bottom,the stem diameter was 9.13% and 11.82%,the leaf width was 27.57% and 34.47%,the chlorophyll content was 7.74% and 6.91%,the fresh weight of the underground part was 1.30% and 1.53%,the main root length was 4.13% and 7.26%,the dry weight of the aboveground part was 0.83% and 22.67%,and the dry weight of the underground part was 13.96% and 16.23%.The yield of capsicum was significantly higher than that of single layer plastic film mulching on the ridge,single layer plastic film mulching on the ridge bottom and the control by 14.58%,12.75% and 28.18%,and there was no significant difference in capsicum yield between the two single layer plastic film mulching methods.By comprehensive analysis,the facility ridging and double plastic film mulching is a kind of plastic film mulching method which can promote the growth of capsicum plants and increase yield,and it is suitable to extend and apply in high-yield cultivation of facility capsicum in Hexi oasis irrigation district.



The Comparative Study on Cadmium Accumulation Characteristics of Different Cowpea Materials

XIANG Juan, PAN Shaokun, WU Chuanxiu, WU Caifang, LU Ronghai, LIN Lijin, CHEN Ling

2020, 49(4):  114-119.  DOI: 10.15933/j.cnki.1004-3268.2020.04.016

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In order to study the differences of absorption and accumulation characteristics of heavy metal cadmium(Cd) in different cowpea materials,a preliminary pot experiment was conducted using 12 cowpea materials in Cd contaminated soil.The results showed that, under Cd stress, the biomass of cowpea HF1013-25-2-1-1 in seedling stage was significantly higher than that of other cowpea materials,and its Cd content was also higher.For 7104 in seedling stage,the biomass above ground was the lowest and Cd content was the highest,and the biomass above ground of other cowpea materials was between HF1013-25-2-1-1 and 7104.When cowpeas matured,the first four cowpea materials with high pod biomass were:FA black-black-3-1-green pod>15279>17300>HF1013-25-2-1-1,while the pod biomass of 15282-1 was significantly lower than that of other cowpea materials,and other materials were between FA black-black-3-1-green pod and 15282-1.Cowpea 7104 had the lowest Cd content in pods,and except 7104,there was no significant difference in Cd content of pods among 11 other cowpea materials.Therefore,cowpea FA black-black-3-1-green pod and 15279 with high pod biomass and low Cd content can be given preference to plant in the Cd-polluted areas.


Diurnal Variation of Photosynthesis of Zaosu and Hongzaosu Pears in Summer in Arid Desert Area

HAN Duohong, ZHOU Defeng, MENG Haojun

2020, 49(4):  120-123.  DOI: 10.15933/j.cnki.1004-3268.2020.04.017

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In order to understand the diurnal variation of photosynthetic characteristics of Zaosu and Hongzaosu pears, the diurnal variation of photosynthetic characteristics was measured by LI-6400XT portable photosynthetic measurement system. The results showed that the diurnal changes of the net photosynthetic rate(Pn) of Zaosu,Hongzaosu pears were both double-peak curve,and the mean of the Pn of Zaosu was 5.07 μmol/(m²·s),which was larger than that of Hongzaosu,4.91 μmol/ (m²·s).The diurnal variation of the Tr of Zaosu and Hongzaosu pears was a double-peak curve,and the Tr of Zaosu pear was smaller than that of Hongzaosu pear.Zaosu and Hongzaosu pears had photosynthetic “ siesta”phenomenon,and the main reason was stomatal restriction.There was little difference in WUE between Zaosu and Hongzaosu pears(2.05,2.02 μmol/mmol respectively),and the diurnal variation trend of Gs was the same.


Effect of Interplanting Pleurotus citrinopileatus in the Tea Garden Put into Production during Non-Production Season

TIAN Jingtao, CHEN Ling, XU Daihua, MAO Guoqing

2020, 49(4):  124-130.  DOI: 10.15933/j.cnki.1004-3268.2020.04.018

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Aiming at the single cultivation mode and low added value of tea tree and edible fungi,in September 2017—April 2018,September 2018—April 2019,with two continuous years,the research took interplanting Pleurotus citrinopileatus in the tea garden during non-production season as the subject and carried out field comparison experiments of interplanting and non-interplanting of Pleurotus citrinopileatus in the tea garden,and compared the yield and quality of Pleurotus citrinopileatus in tea garden and in greenhouse.The result showed that,compared to before interplanting,interplanting Pleurotus citrinopileatus in the tea garden could significantly increase soil organic matter,ammonium nitrogen,and available potassium contents by 10.65%,23.78%,and 4.31%.The tea germination density increased significantly by 144.6 buds/m²,with an increase of 16.36%.The contents of tea water extracts,amino acids,and soluble sugars increased significantly by 2.65,0.49,and 0.52 percentage points respectively.The contents of tea polyphenols and anthocyanins increased significantly by 1.04,0.13 percentage points.In 2017 and 2018,there was no significant difference between the yields of fresh mushrooms grown in the tea garden and in the greenhouse,but the total amino acid content was significantly increased by 1.91,3.72 percentage points compared with that cultivated in the greenhouse.Pleurotus citrinopileatus could gain an average of 24 500 Yuan/ha net income more than that when it was not interplanted.Interplanting Pleurotus citrinopileatus in the tea garden put into production during non-production season can improve soil fertility in the tea garden,increase tea production and added value of the tea garden,and improve the quality of Pleurotus citrinopileatus.


Animal Husbandry and Veterinary Medicine

Preparation of Porcine Parvovirus Virus-like Particles and Its Immunization Evaluation

CHEN Yumei, ZHOU Jingming, LIU Dongmin, MA Liping, FENG Jing, LIU Yunchao

2020, 49(4):  131-137.  DOI: 10.15933/j.cnki.1004-3268.2020.04.019

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In order to develop porcine parvovirus(PPV) virus-like particles(VLPs) vaccine,the VP2 gene of PPV was optimized according to the preference codon usage of Escherichia coli (E.coli) and synthesized.Subsequently,the synthesized VP2 gene was subcloned into pET28a and transformed into BL21(DE3),then the partner protein plasmid,pTf16,was transformed into the BL21(DE3) competent cell containing pET28a-VP2.The objective gene was induced by L-arabinose and IPTG,its product was identified by SDS-PAGE and Western blot, and then the optimization of expressed condition, and distribution analysis of objective protein were done.The results indicated that,the expression quantity of soluble recombinant VP2 protein was highest after induced by 2 mg/mL L-arabinose and 0.1 mmol/L IPTG at 30 ℃ for 12 h.The recombinant VP2 protein was purified by ammonium sulfate precipitation and Ni-NTA affinity chromatography,and the purity was about 90%.The VLPs about 20 nm were obtained,which could hemagglutinate red blood cell.And then Kunming mice were immunized with purified VLPs.The results showed that the prepared VLPs vaccine could effectively stimulate the body to produce high titer antibodies(the titer of antibodies was up to 1∶25 600 by ELISA).Preliminary results showed that the prepared VLPs vaccine could stimulate body to produce specific antibody.


Analysis of Pathogenicity Difference of PPV Based on Prediction about the Structure of the Non-structural Protein NS1

ZHOU Yong, WEI Lei, JING Bingnian, MA Yanni, WANG Wei

2020, 49(4):  138-146.  DOI: 10.15933/j.cnki.1004-3268.2020.04.020

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In order to explore the cause of the difference in the pathogenicity of the different strains of porcine parvovirus (PPV), the amino acid site differences of the non-structural protein NS1 of PPV NADL-2 and Kresse strains were compared by using bioinformatics online softwares,and a series of online softwares were used to compare the differences of physicochemical property,hydrophobicity/hydrophilicity and signal peptide between them,and then analyze their domain,secondary structure and tertiary structure.The result showed that there were significant differences in amino acids at 621—636 sites between the two strains.The hydrophobicity of Kresse strain was weak,and in the secondary structure it contained more curly structures. Through the comparison of the tertiary structures combining the above results,it was inferred that the difference in pathogenicity between the two strains was due to the different domains of unknown functions at 621—636 sites.


Association Analysis between MyoG Gene Polymorphism and Early Growth Performance of Quail

BAI Junyan, SHI Kunpeng, LU Xiaoning, YANG Shuai, CHEN Mengke, MA Yongkang, GONG Huirong, DONG Zhihao, PANG Youzhi, LEI Ying, CAO Hui, AN Xiaokai, CHANG Shizeng, HOU Weixiao, FU Xueyan, FAN Hongdeng, CAO Heng

2020, 49(4):  147-152.  DOI: 10.15933/j.cnki.1004-3268.2020.04.021

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In order to find molecular markers for early growth performance of egg quails,PCR-SSCP was used to detect the polymorphism of MyoG gene 5′ regulatory region A and B loci in Chinese yellow,Beijing white and Korean quails,and the relationship between the 5′ regulatory region of MyoG gene and early growth and development performance of quails was also analyzed.The results showed that 6 genotypes such as AA,BB,CC,AB,AC and BC were detected in the 5′ regulatory region A locus of MyoG gene in egg quails.Different genotypes of MyoG gene 5′ regulatory region A locus were associated with body weight,tibia length,chest width,chest depth,sternum length,body length of egg quails (P<0.05).Nine genotypes such as AA,BB,CC,DD,EE,AB,AC,AD and AE were detected in egg quails at site B of 5′regulatory region of MyoG gene.Different genotypes were correlated with body weight,tibia length,chest width,chest depth,sternum length and body length of egg quail (P<0.05).In conclusion,the A and B loci in the 5′ regulatory region of MyoG gene have some effects on the early growth performance of egg quails.The A and B loci in the 5′ regulatory region of MyoG gene can be used as molecular markers for the early growth performance of egg quails.


Screening of SNPs and Bioinformatics Analysis of ORAI1 Gene in Sansui Duck

TAN Guanghui, ZHANG Yiyu, WU Lei, QIN Yuanyu, LI Jiezhang

2020, 49(4):  153-159.  DOI: 10.15933/j.cnki.1004-3268.2020.04.022

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In order to investigate the correlation between ORAI1 gene and eggshell quality of Sansui duck,a DNA mixing pool was constructed with Sansui duck as the research object.The ORAI1 gene of Sansui duck was detected for single nucleotide polymorphism(SNP) using PCR amplification and direct sequencing,which had significant effect on eggshell quality of Sansui duck.At the same time,the function of ORAI1 protein in Sansui duck was predicted.The results showed that ORAI1 gene of Sansui duck encoded 263 amino acids,which constituted an unstable hydrophilic protein.The secondary structure of ORAI1 protein consisted mainly of α helix,random curl,extension chain and β trun.After PCR amplification,three SNPs were found in the amplified segment,namely T84C,C188T and A471G.Synonymous mutation did not cause the change of amino acid,but caused the change of mRNA secondary structure and free energy of the gene,and the allele frequencies of each mutation site were different before and after mutation.The results indicated that there were three SNPs in ORAI1 gene,which could be used as a reference for molecular marker sites to improve eggshell quality.


Effect of Rhaponticum uniflorum(L.)DC.on the Expression of Genes Related to Casein Synthesis in Mammary Epithelial Cells of Dairy Goat

LIU Lili, YANG Bingyou

2020, 49(4):  160-166.  DOI: 10.15933/j.cnki.1004-3268.2020.04.023

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To investigate the mechanism of Rhaponticum uniflorum(L.)DC.regulating casein synthesis in mammary glands of mammary animal, in this study, the effects of ethanol extract from Rhaponticum uniflorum(L.)DC.(25,50,100,200,400,600,800 μg/mL)on the viability and proliferation ability of mammary epithelial cells in dairy goat were detected by using a cell activity analyzer.The concentration of ethanol extract not inhibiting cell growth and proliferation was selected to study the effect of ethanol extract on the mRNA expression of casein synthesis related genes of mammary epithelial cells in dairy goat.The mRNA expression levels of CSN1S1,CSN1S2,CSN2,CSN3,STAT5,JAK2,mTOR,4EBP1,S6K1 in mammary epithelial cells were detected by qRT-PCR. The results displayed that higher doses(200—800 μg/mL) of ethanol extract from Rhaponticum uniflorum(L.)DC. significantly inhibited the viability and proliferation ability of mammary epithelial cells in dairy goat (P<0.05).Thus,the epithelial cells were treated with 25,50,100 μg/ mL ethanol extract in subsequent experiments.The ethanol extract obviously up regulated the mRNA expression of CSN1S1,CSN1S2,CSN2,CSN3 genes and the genes related to casein synthesis such as STAT5,JAK2,mTOR,S6K1 (P<0.05). But the ethanol extract significantly down regulated the mRNA expression of 4EBP1 gene (P<0.05).This study shows that the ethanol extract from Rhaponticum uniflorum(L.) DC.can promote the synthesis of casein by regulating the expression of genes related to casein synthesis in mammary epithelial cells of dairy goats.


Effects of Yam Extract on Growth Performance and Non-specific Immune Parameters of Rainbow Trout(Oncorhynchus mykiss)

WANG Fan, LI Congge, MA Yawen, LIU Fei, MENG Xiangjie

2020, 49(4):  167-172.  DOI: 10.15933/j.cnki.1004-3268.2020.04.024

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To investigate effects of yam on growth performance and immunity function of rainbow trout(Oncorhynchus mykiss),four test groups were used,which consisted of basic feed group(control),0.1%,0.2% and 0.4% yam extract addition groups. Rainbow trout were randomly allotted to four groups and were fed for 56 d.The results were as follows:compared with the control group,0.1%,0.2% and 0.4% yam extract had no significant effect on the growth performance,but significantly decreased the content of blood urea nitrogen(BUN) and the inhibitory effects were 51.20%,64.06% and 49.80%,respectively,while significantly increased complement 4(C4) level(the induction effects were 154.35%,144.03% and 304.68%,respectively)and lysozyme(LZM) activities(the induction effects were 42.41%,34.95%and 27.89%,respectively) in the serum of rainbow trout;total protein(TP),interleukin-6 (IL-6),tumor necrosis factor α(TNF-α), and superoxide dismutase(SOD) levels were significantly increased in the serum of 0.2% and 0.4% groups(the induction effects were 36.49% and 45.97%,45.01% and 56.25%,247.32% and 414.15%,82.14% and 110.71%,respectively),while alkaline phosphatase(ALP) activities in 0.2% and 0.4% groups,glutamic-pyruvic transaminase(GPT) activities in 0.1% and 0.2%groups,CREA content in 0.1% group were significantly decreased(the inhibitory effects were 51.60% and 56.75%,77.37% and 60.71%,41.96%,respectively);interleukin-2(IL-2)content in 0.2% group,albumin(ALB)content and acid phosphatase(ACP) activity in 0.4% group were significantly increased(the induction effects were 87.59%,30.73% and 63.77%,respectively).The above results showed that the growth performance of rainbow trout could not be affected by adding the extracts of yam to the basic feed,while the non-specific immune function could be improved.The recommended dosage was 0.2%—0.4%.



Agricultural Information and Engineering and Agricultural Product Processing

Segmentation Method of Wheat Image Using PLSA and Color Naming

FENG Xiao, ZHANG Hui, MA Zhongjie, QIAO Lu, JIN Wei, WEI Dong, ZANG Hecang

2020, 49(4):  173-180.  DOI: 10.15933/j.cnki.1004-3268.2020.04.025

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In order to reduce the influence of insufficient light and improve the extraction effect of slightly yellow leaves in the segmentation of wheat image in the field environment,a new method of wheat image segmentation combining white balance adjustment,local homomorphic filtering preprocessing and color naming algorithm based on probabilistic latent semantic analysis(PLSA)model was proposed.Firstly,the wheat image collected in the field was adjusted by the white balance to get the image without color deviation;then the local homomorphic filtering of luminance component I in HSI color model was executed for reducing the influence of insufficient light on the image;finally,the corresponding areas of green and yellow pixels from RGB image were extracted as the target area using the color name RGB value dictionary constructed by PLSA model. The results showed that the F1 value increased by 1.61 percentage points after the white balance adjustment;the F1 value of the insufficient light image segmentation increased by 12.43 percentage point after the local homomorphic filtering,and the effect of segmentation was improved obviously;the F1 values of green,slightly yellow and insufficient light wheat images were respectively 96.39%,97.29% and 96.22% by the method,which achieved good segmentation effect;compared with K-means clustering algorithm,although there were more point noise and small holes in this method,the F1 value for slightly yellow wheat image was increased by 4.42%,the overall segmentation effect was better and the stability was stronger.