Study on Characteristics of Production and Quality of Peanut in Sichuan Basin

Sichuan Basin is an important agricultural production base,where peanut cultivation is widely distributed,and the size of planting areas is relatively concentrated,however there are several problems in the peanut production such as variety complexity,quality degradation,poor marketability,as well as non-standardized cultivation techniques and deep processing delay and so on.Overview of the study area was introduced,and characteristics of production and quality of peanut were analyzed.The results showed that,affected by ecological conditions,the fat content of peanut was higher,protein content of peanut was medium and the O/L was generally high.In the spatial distribution,the protein content of peanut was higher in the south than it in the north,however the fat content of peanut decreased gradually form northeast to southwest,while the O/L of peanut was higher in the eastern hilly area than it in the west plains,and the main producing areas of peanut was lower than it in the non-main producing areas.The article pointed out that the area should focus the peanut as an important economic corps and advantages of agricultural products in the region,and significantly enhance the peanut plant efficiency as the core to enhance the space for rational distribution,implement standardized production of pollution-free and base production,improve the rate of input-output per unit area,enhance the level of deep processing,caste national ＂ vegetable protein source,processing of raw materials sources and agricultural bio-complementary source＂,and realize the increase production and incomes of farmer and sustainable development of regional peanut industry.

Effects of paclobutrazol application on plant architecture,lodging resistance,photosynthetic characteristics,and peanut yield at different single-seed precise sowing densities

The key to high-yielding peanut cultivation is the optimization of agricultural production practices.Regulating single-seed precise sowing(SSPS)density and paclobutrazol(Pbz)application concentration are effective practices that increase peanut yield by improving plant architecture,lodging resistance,and photosynthetic characteristics.Therefore,we conducted a two-factor field optimization experiment for the sowing density(D1:1.95×10^(5)plants ha^(-1),D52:2.40×10plants ha^(-1),D3:2.85×10^(5)plants ha^(-1),and D4:3.30×10^(5)plants ha^(-1))and Pbzapplication concentration(P0:0 mg L^(-1)and P1:100 mg L^(-1)).The objective was to optimize agricultural production practices and provide a theoretical basis for highyielding peanut cultivation by evaluating the effects of sowing density and Pbzapplication on plant architecture,lodging resistance,photosynthetic characteristics,and yield.The results showed that at the same Pbzapplication concentration,increasing sowing density increased lodging percentage and reduced leaf photosynthetic capacity.At the same sowing density,Pbzapplication reduced lodging percentage by decreasing plant height(PH),improving lignin biosynthesis-related enzyme activities,and enhancing stem puncture strength(SPS)and breaking strength(SBS).The paclobutrazol-induced alterations in plant architecture and lodging resistance improved light transmission at the middle and bottom leaf strata,resulting in the increase in relative chlorophyll content and net photosynthetic rate(Pn)of leaves.Furthermore,D3P1treatment had the highest peanut yield among all treatments.In summary,the production strategy combining the sowing density of 2.85×10^(5)plants ha^(-1)with the application of100 mg L^(-1)Pbzwas found to be the optimal agricultural production practice for giving full play to production potential and achieving higher peanut yield.

Changes of Physiological Characteristics and Yield in Peanut Varieties with Different Resistance Effected by Peanut Scab

In order to identify the resistance of peanut varieties against scab disease, the changes of physiological characteristics and yield in two peanut varieties ＇Heyou 13＇ and ＇Quanhual0＇ with different resistance effected by peanut scab were stud- ied in field experiment by spray. The results showed the soluble sugar increased firstly and then decreased both in the resistant and susceptible peanuts after inocu- lation. Compared with the control, the soluble sugar of resistant peanut was higher, and that of the susceptible peanut was lower, which implied that the peanut resis- tance to scab was positive correlated with soluble sugar content. The soluble pro- tein content in leaves of resistant and susceptible peanut varieties after inoculation was higher than that of the control. The peak of soluble protein content appeared earlier in the susceptible peanut than in the resistant peanut, which indicated that the susceptible peanut were more sensitive to the pathogen than the resistant peanut. The leaf SOD activity increased firstly and then decreased both in resistant and susceptible varieties, while the decrease in the resistant variety were lower than in the susceptible variety. With the growth process, the CAT and POD activities first decreased, then increased, and again decreased. Compared with the corresponding control, the resistant variety had relatively higher CAT and POD activities than the susceptible variety, which illustrated that the protective enzymes played important roles in resistance mechanism to scab. The MDA content of the two peanut vari- eties after inoculation increased, indicating that plasma membranes were subjected to different degrees of damage. The yield of resistant and susceptible varieties after inoculation reduced, while the yield of the susceptible peanut of ＇Quanhua 10＇ reduced greater.

Physiological Characteristics of Nitrogen Nutrition in Peanut and Efficient Nitrogen Application Technology

Nitrogen plays a very important role in peanut nutrition and fertilization.For peanuts,the nitrogen nutrition comes from root nodules,soil and fertilizer,which are separately referred to as root nodule nitrogen,soil nitrogen and fertilizer nitrogen.The research obtained following findings.(ⅰ)The nitrogen supply ratio of the three nitrogen sources for peanut is about 5∶3∶2.There are significant differences in the nitrogen supply capacity of the three nitrogen sources.The root nodules have the largest variation in nitrogen fixation and have a high potential for development.Nitrogen fixation in root nodules is closely related to carbon metabolism indicators such as photosynthesis in peanut leaves.Phosphorus application could increase the accumulation of three nitrogen sources,and the increase in nodule nitrogen accumulation is greater than that of soil nitrogen and fertilizer nitrogen.(ⅱ)Nitrogen fertilizer has a significant effect on nitrogen nutrition of peanuts.Different forms of nitrogen fertilizers,such as amide nitrogen,ammonium nitrogen,nitrate nitrogen and mixed ammonium nitrate nitrogen,have significant effects on nitrogen metabolism and nitrogen accumulation in peanuts.Amide nitrogen fertilizer is beneficial to improving the activity of enzymes related to nitrogen metabolism and nitrogen accumulation.Controlled-release fertilizer can significantly increase the content of soluble protein and improve the activities of NRase,GDH,GS,GPT,etc.in roots and leaves at the pod setting and mature stages of peanuts,which is favorable for delaying the plant senescence and increasing the yield of peanuts.Mixed application of common nitrogen fertilizer and slow-release fertilizer can increase the soil nitrate nitrogen level at the later growth stage,which is beneficial to the development of the root system at the later stage of growth,increasing the distribution ratio of nitrogen in the pods,and also favorable for increasing the yield and nitrogen utilization rate.(ⅲ)Increasing the ploughing depth,improving fertilization methods,selecting nitrogen-efficient varieties,paying attention to foliar topdressing,and adopting fertilizer-water integrated cultivation are conducive to increasing the nitrogen utilization rate of peanuts,reducing the amount of nitrogen fertilizers,accordingly saving costs,increasing efficiency and realizing sustainable development of agricultural production.

Analysis on Major Agronomic Traits and Yield of Huayu Series of Peanut Cultivars under Mulched Drip Irrigation

[Objective] This study aimed to investigate the appearance of major agronomic traits and yield potential of Huayu series of peanut cultivars under the condition of mulched drip irrigation, so as to provide core parent materials for new peanut cultivar breeding in Xinjiang during Thirteenth Five-Year Plan. [Method] A total of 16 peanut cultivars of Huayu series were studied systematically by field experiment and laboratory analysis. In addition, the main stem height, lateral branch length, pod number per plant, 100-pod weight, 100-kernel weight, pod length, pod width and yield of different peanut cultivar were compared. [Result]Under the condition of mulched drip irrigation, the appearance of major agronomic traits of peanut cultivars in Xinjiang was better than that in Shandong areas. In Xinjiang, the yields of the peanut cultivars were increased in varying degrees. However,there were some differences in appearance of major agronomic traits, as well as yield, among different peanut cultivars. Among all the peanut cultivars, the single-plant productivities of Huayu 22, Huayu 28 and Huayu 50 were higher than those of the other cultivars, and the yields of Huayu 33 and Huayu 50 were higher than those of the other cultivars. Meanwhile, the late two cultivars' comprehensive traits were excellent. [Conclusion] In the high-yielding breeding of peanut in Xinjiang, Huayu 33 and Huayu50 can be used as core parent materials. Under the condition of mulched drip irrigation, their yield potential can be further explored.

Analysis on Some Agronomic Characters and Pedigree in Hezihao Series Peanut Varieties

The genealogical relationship and agronomic characters of 13 peanut varieties,breeded by Hezhou Academy of Agricultural Sciences,which had been authorized were analyzed.The results showed that 20 direct parents were involved in 13 varieties,80%of which came from Guangxi and Guangdong Province.Shanyou 523 and Yueyou 193 were used for more times;The genealogical analysis of these certified varieties can be traced back to 30 ancestral parents,the proportion of which contained consanguinity of Fu Peanut and Shitouqi were 84.62%.This demonstrated that genetic basis was rather narrow and it was quite difficult to make a great breakthrough in breeding.Plant height,total number of branches and oil content changed very little,100-pod weight and pod yield increased,whereas there was a downward trend in shelling percentage.Therefore,it is quite necessary to further broaden the germplasm basis of parents,enrich breeding methods,and continue to strengthen disease-resistant breeding and specific peanut breeding.

Effects of Gel-based Controlled Release Fertilizers on Agronomic Characteristics and Physiological Indices of Corn

[Objective] This study aimed to investigate the effects of gel-based controlled release fertilizers （CRFs） on agronomic characteristics and physiological indices of corn. [Method] Pot experiment was carried out to investigate the agronomic characteristics and physiological indices of corn fertilized with controlled release fertilizers compared with conventional fertilizer （CF）. [Result] Plant height, stem girth, leaf area and root volume of corn were significantly increased under the CRF treatments; photosynthetic rate and soluble protein content were also improved. Dry matter accumulations under the two CRF treatments were increased by 21.3% and 17.0% compared with CF application at one time （CF1）, and 19.6% and 15.4% with CF application at two times （CF2）, respectively. Accumulation amounts of N, P and K in whole plant under the two CRF treatments were increased by 44.0% -24.7% , 40.0%-25.9% and 20.1% -13.9% ; and the nutrient use efficiencies of N, P and K were improved by 22.9% -13.4% , 11.2% -9.6% and 17.5% -12.1% , respectively. [Conclusion] The results implied that the CRFs could significantly improve nutrient use efficiency and plant yield.

Effects of Low Light on Agronomic and Physiological Characteristics of Rice Including Grain Yield and Quality

Light intensity is one of the most important environmental factors that determine the basic characteristics of rice development. However, continuously cloudy weather or rainfall, especially during the grain-filling stage, induces a significant loss in yield and results in poor grain quality. Stress caused by low light often creates severe meteorological disasters in some rice-growing regions worldwide. This review was based on our previous research and related research regarding the effects of low light on rice growth, yield and quality as well as the formation of grain, and mainly reviewed the physiological metabolism of rice plants, including characteristics of photosynthesis, activities of antioxidant enzymes in rice leaves and key enzymes involved in starch synthesis in grains, as well as the translocations of carbohydrate and nitrogen. These characteristics include various grain yield and rice quality components （milling and appearance as well as cooking, eating and nutritional qualities） under different rates of shading imposed at the vegetative or reproductive stages of rice plants. Furthermore, we discussed why grain yield and quality are reduced under the low light environment. Next, we summarized the need for future research that emphasizes methods can effectively improve rice grain yield and quality under low light stress. These research findings can provide a beneficial reference for rice cultivation management and breeding program in low light environments.

Plant Hormone Resistance and Agronomic Characteristics of the MT10 Mutant in Rice

The MT10 mutant plants had resistances to auxin.Under light and dark culture,the roots of MT10 seedlings had shown less lateral roots and short lateral roots.In soil,MT10 seedlings had shown not only no changed agronomic characteristics but also no significant difference with WT.

Effects of Different Population Densities on Yield and Agronomic Characteristics of Mung Bean

With the methods of crop population physiology,the effects of different population densities on growth,development and yield of mung bean as well as the relationship between these indexes and density were studied.The results showed that the morphology indexes of mung bean plant changed significantly with planting density increasing：the plant height showed increasing trend,while the stem diameter of the basal intemode were gradually decreased.And these two indexes were sensitive to the density.The effects of planting densities on valid branch number and the height of the first branch had reached significant level.In the yield components,the effects of planting densities on the pod number per plant,the grain weight per plant and the hundred grain weight had achieved significant level.

Studies on Immature Embryo Culture In vitro in Wheat:Genetic stability analysis of somatic variation in main agronomic characteristics

The genetic stability of variations of main agronomic characteristics in progenies from the regenerated plants of immature embryo culture in vitro was studied. The results showed that the variations of earliness in maturity, high 1000-grain weight, plant height and grain weight per spike were heritable and tended to be stable in IE3 and completely stable in IE4 The wide variation of main agronomic characteristics induced by embryo culture in vitro provided the probability of selection in wheat improvement. Some somaclonal lines with useful variations could be used directly in wheat production.

Field Evaluation on Agronomic Characteristics of Newly Introduced Bitter Gourd(Momordica charantia L.)Accessions in Thua Thien Hue Province,Vietnam

The main objective of this study was to evaluate ability of growth and yield of introduced bitter gourd accessions in winter-spring 2016-2017 in Thua Thien Hue province.A total of seven accessions were used in this study.Of these,six accessions were provided by the World Vegetable Center(AVRDC),namely,AVRDC 1329,AVRDC 1330,AVRDC 1331,AVRDC 1333,AVRDC 1334,AVRDC 1335 and one Vietnam local accession(control)from Dien Hai commune,Phong Dien district,Thua Thien Hue province.The results showed that experiment accessions can grow under Thua Thien Hue conditions.AVRDC 1329,AVRDC 1330,and AVRDC 1335 were considered as displaying good growth and development ability.Of those,AVRDC 1330 was the most suitable to consumer as regards to appearance and bitter taste.AVRDC 1330,the control check and AVRDC 1331 had the high actual yield with 16.57,10.65 and 7.88 tons/ha,respectively,and these two introduced accessions can be used for breeding and cultivation under local condition.

花生粕的饲用资源开发及在养殖业的应用

花生粕粗蛋白含量和代谢能均高于大豆饼粕,但缺乏赖氨酸、蛋氨酸等,且赖氨酸与精氨酸比例失衡,蛋白质品质欠佳。花生粕极易感黄曲霉毒素,同时在高温压榨条件下,蛋白质变性严重,导致蛋白质和氨基酸的利用率降低。由于花生粕自身品质缺陷和加工质量的不稳定性,限制了其在配合饲料中的应用。利用微生物发酵或菌酶协同发酵技术,可使花生粕中含有丰富的益生菌、寡肽、有机酸等,改善其适口性,有效降解霉菌毒素或抗营养因子,有利于改善动物肠道健康,增强机体免疫,提高生产性能,缓解蛋白质原料匮乏的现状。文章综述了花生粕资源状况、营养特性、生物发酵花生粕研究现状及在养殖业中的应用,为花生粕安全高效可持续利用提供参考依据。

不同密度单粒精播对花生开花动态及结实特性的影响

为探讨不同密度单粒精播对花生开花动态及结实特性的影响,以普通大花生品种花育25为材料,在行距相同的条件下设置4个处理,包括单粒播分别为株距9 cm、12 cm和15 cm,折合播种密度分别为27.8万株·hm^(-2)(S9)、20.8万株·hm^(-2)(S12)和16.7万株hm-2(S15)3个处理,和双粒播27.8万株·hm^(-2)(D18,穴距18 cm)1个处理,研究不同密度单粒精播对花生开花习性、果针形成、荚果发育动态、结实范围及产量的影响。结果表明,与双粒播相比,不同密度单粒播均可不同程度地促进花生早开花、多开花,增加有效果针数,促进荚果发育,低密度条件下,效果最为显著;从群体指标看,20.8万株·hm^(-2)的单粒精播模式下,花生开花数、有效果针数、结果数最多,荚果体积最大,荚果饱满度高,产量水平最高。不同密度单粒精播改变了花生的结实范围和荚果空间分布,密度降低,结实范围增加,但不同处理荚果干重(95%以上)仍主要分布在半径6.0 cm以内的空间范围内,密度20.8万株·hm^(-2)(株距12.0 cm)的单粒精播条件下,结实范围与半株距接近,更有利于群体间荚果的均匀分布。

2001-2020年山东省花生生产地域格局变化及影响因素

基于2001-2020年统计数据,运用数理统计和区域差异法,分析了山东省花生生产地域格局的变化特征及其影响因素,为山东省花生生产的可持续发展提供科学决策依据。研究表明,近20年来,山东省花生生产呈“两减一增”局面,面积和产量分别下降33.00%和22.34%、单产增加15.93%;花生生产区域向以临沂为中心的鲁西南地区和烟台、威海、青岛所处的胶东东部地区集中;20年中有4年花生面积贡献率大于单产贡献率,有16年小于单产贡献率。研究发现,鲁东和鲁西南地区经济作物面积占比减少,是导致山东省花生种植面积下降的直接影响因素;山东花生净利润和成本利润率降低,特别是近年来的“断崖式”下跌,是导致花生种植面积和总产量逐年下降的根本原因;国内外贸易市场不稳定带来的风险,也制约了花生产业的发展。

盐碱地花生棉花等幅间作对花生光合特性及产量效益的影响

为充分利用盐碱地土地及温光热资源,明确盐碱地花生/棉花等幅间作种植模式下,不同垄行位置对花生光合产物积累和光合特性的影响,提高盐碱地农业生产综合效益,在田间条件下,采用花生/棉花6∶4等幅间作周年轮作高效种植模式,研究花生带不同垄行位置对其光合产物积累、光照强度、叶绿素荧光特性等的影响及产量和效益的变化。结果表明:(1)盐碱地花生/棉花等幅间作种植模式较花生单作可显著增加花生主茎高、侧枝长、功能叶片非光化学荧光淬灭系数(NPQ),显著降低生物量、相对叶绿素含量(SPAD)、叶面积系数(LAI)、净光合速率(P_(n))、蒸腾速率(T_(r)),产量明显降低;间作棉花果枝数、单株铃数、铃重和产量均明显提高,间作系统综合经济效益显著提高。(2)间作系统中花生带两边垄行(IP1、IP3)、单作花生和单作棉花的冠层光照强度峰值均出现在12:00,但中间垄行(IP2)花生冠层辐射强度峰值滞后到14:00,且间作花生带两边垄行冠层光照度显著低于花生单作处理。(3)间作系统中,花生花针期后垄行位置对光合效率的影响显著,中间垄行SPAD、LAI和NPQ值均显著高于两边垄行,而两边垄行间无明显差异;但P_(n)、气孔导度(G_(s))和T_(r)受试点和垄行位置影响显著,其中东营市试点花生各生育期的各垄行位置间均无显著差异,而高唐县试点间作花生功能叶P_(n)、G_(s)和T_(r)均显著低于单作处理,且间作处理的IP2垄行显著高于IP1、IP3两边垄行。(4)两试点间作棉花和花生产量低于其单作处理,但综合效益较传统植棉收益分别提高11.94%(东营)和27.08%(高唐),间作系统土地当量比大于1.02。

低温/中温花生粕蛋白的理化特性及结构特性分析

对低温/中温花生粕的感官色差、功能特性和结构特性进行了研究和分析,旨在为提高花生粕的综合利用价值提供理论基础。结果表明,低温花生粕呈象牙色,中温花生粕呈灰白色。从功能特性上来看,低温/中温花生粕蛋白的持油性、乳化性和泡沫稳定性无显著性差异。低温花生粕蛋白具有更好的溶解度、起泡性、持水性、热稳定性,中温花生粕蛋白具有更好的乳化稳定性。进一步通过分子量、二级结构、DSC对蛋白质结构进行分析,低温花生粕和中温花生粕蛋白质二级结构主要是β-折叠、β-转角,中温花生粕蛋白变性程度更高,低温花生粕的蛋白结构相对更松散。低温花生粕蛋白具有更高的变性温度和热焓值,且具有更好的热稳定性。

黑控肥对花生植株性状、产量及肥料利用的影响

为探索花生减量增效施肥技术,明确新型花生专用肥的施用效果,采用田间小区试验,以不施肥(CK1)和普通复合肥常规用量(CK2)为对照,设置黑控肥用量梯度,分别为750 kg/hm^(2)(T1)、675 kg/hm^(2)(T2)、600 kg/hm^(2)(T3)、450 kg/hm^(2)(T4),研究不同处理对花生生长发育及肥料利用状况的影响。结果表明:4个黑控肥处理可降低株高和侧枝长,提高主茎绿叶数和饱果数,其中T2、T1处理的百果质量、百仁质量、出米率和产量均高于其他处理;4个黑控肥处理的综合农学利用率均高于CK2,其中T2处理的肥料贡献率和农学利用率均显著高于CK2;T2、T1处理的花生收益均较CK2增加。经隶属函数法综合评价,675 kg/hm^(2)黑控肥(T2)处理效果最好。

辽宁地区适栽香菇菌株筛选评价研究

以引进和自主选育的16个香菇菌株为试材,采用菌丝表型观察和出菇试验等方法,研究了菌丝生长情况、菌株间拮抗反应、耐高温性能、产漆酶能力、子实体农艺性状及生物学效率,以期为辽宁地区适栽香菇品种的选择提供参考依据。结果表明:菌株22-5、22-8、22-19和ZJ12为适宜辽宁地区生长的优良香菇菌株,其中22-5和22-8为中长菌龄,子实体较大,菇型美观,适宜鲜销;ZJ12和22-19为短菌龄,产量高。ZJ12菇型适中,即适宜鲜销,也可烘干销售,22-19菇型稍小,适宜做烘干销售或切片、切丝加工。

硒对云南白灵芝生长、品质及DNA甲基化特征的影响

采用田间覆土栽培试验,设置6个Se浓度(0、50、100、200、300、400μg/g)处理,分别记为CK、Se50、Se100、Se200、Se300、Se400,研究外源硒对云南白灵芝生长发育、重金属积累、生物活性成分含量及其DNA甲基化特征的影响。结果表明,与CK相比,外源Se对子实体柄长和菌盖大小(横径、纵径)无显著影响,但能显著降低菌盖厚度;随着Se施用水平提高,菌丝生长速率和子实体硒含量均呈先增后降的趋势,生物量呈先降后增再降的趋势。子实体重金属含量(As、Cd、Pb、Hg)随Se浓度增加呈持续降低趋势,线性分析也表明,重金属含量与Se施用浓度均呈显著负相关。施Se增加了子实体多糖、粗蛋白、黄酮及总氨基酸含量,其中,多糖、黄酮含量在Se400处理下最高,总氨基酸、粗蛋白含量分别在Se200、Se300处理下最高。HPLC测定分析表明,与CK相比,Se300提高了灵芝酸A、灵芝酸DM、灵芝酸F及灵芝酮三醇为主的三萜酸组分,其总三萜酸含量较其他处理提高2.93%~25.54%。敏感扩增多态性分析(MSAP)结果显示,Se300较CK、Se400相比具有较高的未甲基化位点比例和较低的甲基化位点比例。综上,施用外源硒可促进早期菌丝生长,提高子实体生物量累积,改善子实体重金属安全性能和生物活性成分品质,改变DNA甲基化比例,且以300μg/g施用浓度的整体效果最佳,其子实体产量较对照显著提高11.36%。