化学打顶对阿拉尔垦区主栽品种光合冠层的影响

化学打顶是指利用植物生长调节剂来打破作物顶端优势,进而保障作物的正常生长和生产。本文为探究化学打顶对作物的影响,利用摇钱素和棉花打顶剂处理新陆中70和新陆中82不同品种,同时测定不同化学打顶剂处理条件下,棉花的净光合速率、气孔导度、蒸腾速率、胞间CO₂浓度及棉花冠层叶面积指数指标。研究发现：不同化学打顶处理条件下,与人工打顶相比化学打顶的棉花的五种指标变化均不明显,但新陆中70和新陆中82品种的净光合速率平均值与对照相比分别高出3 μmol/(m2.s)和2 μmol/(m2.s),且冠层叶面积指数值比人工打顶的略高。试验结果表明化学打顶处理后没有造成棉花疯长,提高了光能利用率,进而增加作物群体的光合作用。     

皖东丘陵青钱柳叶用林“矮化密植早丰”技术可行性研究

青钱柳种子发芽率低,天然更新能力弱,自然分布的森林中难以找到幼树幼苗。加上育苗困难,难以像普通树种进行人工造林,导致青钱柳资源匮乏,仅在南方部分省区零星分布,总量严重不足。野生资源已不能满足青钱柳健康茶产业发展需要,创新叶用林栽培模式刻不容缓。     

Effects of irrigation and planting geometry on cotton(Gossypium hirsutum L.)fiber quality and seed composition

Background:Cotton fiber quality and seed composition play vital roles in the economics of cotton production systems and the cottonseed meal industry.This research aimed to examine the effects of different irrigation levels and planting geometries on fiber quality and seed composition of cotton(Gossypium hirsutum L.).We conducted a 2-year study in 2018 and 2019 in a warm,humid area in the Southeast United States on Dundee silt loam soil.There were three irrigation treatments in the study.The treatments included irrigating every furrow,or full irrigation(FI),every alternate furrow,or half irrigation(HI),and no irrigation,or rain-fed(RF).Planting geometries were on ridges spaced 102 cm apart and either a single-row(SR)or twin-rows(TR).Results:The results of high-volume instrument(HVI),advanced fiber information systems(AFIS)and near-infrared reflectance spectroscopy(NIRS)showed that irrigation and planting treatments played a significant role in fiber quality and seed composition.Across irrigation treatments,significant differences were seen in fiber properties,including fineness,maturity ratio,micronaire,neps,short fiber,strength,uniformity,upper half mean length(UHML),upper quartile length by weight(UQLw),and yellowness(+b).Irrigation and planting geometry(PG)had a significant effect on micronaire,strength,and UHML while their interaction was significant only for micronaire.The micronaire was negatively affected by irrigation as FI-SR,FI-TR,HI-SR,and HI-TR recorded 11%~12%lower over the RF-SR and TR treatments.The PG played a minor role in determining fiber quality traits like micronaire and nep count.Irrigation treatments produced significantly lower(3%~4%)protein content than rain-fed,while oil content increased significantly(6%~10%).Conclusions:The study results indicate a potential for improving cotton fiber and seed qualities by managing irrigation and planting geometries in cotton production systems in the Mississippi(MS)Delta region.The HI-TR system appears promising for lint and seed quality.     

纳米氢氧化镁对大白菜产量、Cd含量及土壤Cd形态的影响

我国土壤Cd污染日趋严重。本研究探讨了纳米氢氧化镁对大白菜生长、Cd含量及形态、土壤Cd含量及形态的影响,以期为氢氧化镁在土壤Cd污染修复中的应用和蔬菜安全生产提供理论基础。采用大田试验研究了不同施加量(0、150、300、450 g.亩-1)的普通氢氧化镁和纳米氢氧化镁对大白菜的生长、Cd含量及形态、土壤的pH、土壤Cd含量及形态的影响。结果表明,与对照相比,施加氢氧化镁后大白菜产量增加了4.1%~22.3%。施用氢氧化镁后大白菜叶片、叶柄和根Cd含量分别降低了5.3%~19.2%、9.0%~28.1%和3.5%~19.3%,土壤Cd含量降低了8.2%~41.5%。相同施用量下,纳米氢氧化镁处理的大白菜叶片、叶柄和根Cd含量明显低于普通氢氧化镁。施用氢氧化镁使大白菜地上部蛋白质结合态(NaCl-F)Cd含量下降,残渣态(R-F)Cd含量增加,土壤pH值降低,土壤中铁锰氧化物结合态(FeMn-Cd)、有机结合态(OM-Cd)和残渣态(RES-Cd)Cd含量降低。总体而言,NMg1处理大白菜产量最高,叶片Cd含量最低,为本研究最佳处理。     

哈密“密作”古枣园提质增效技术要点

正"密作"古枣是哈密区域独特的气候、地理条件下所形成的红枣优良品种,也是新疆独有的本地特色红枣公用区域品牌。我们总结了"密作"古枣园科学管理提质增效技术要点。1整形修剪简化树形,按枣树生长发育规律,一般利用短截、回缩、疏枝、拉枝、落头、抹芽、摘心等方法。丰产树形有多主枝疏层形、开心形。为解决     

黏虫CYP9A113基因的克隆及外源物质对基因表达的诱导效应

黏虫是我国作物上最重要的害虫之一。细胞色素P450能够参与昆虫外源物质代谢。本研究采用RACE技术克隆了一条编码黏虫P450基因的cDNA序列,并通过Real-time PCR技术,检测了4种外源物质对该基因表达的诱导效应。该基因被国际P450命名委员会命名为CYP9A113,GenBank登录号为KY436739。利用2.5%高效氯氟氰菊酯乳油的LD_(50)处理黏虫3 h,LD_(10)、LD_(30)和LD_(50)处理12 h和24 h,可诱导表达CYP9A113基因;20%氯虫苯甲酰胺悬浮剂的LD_(10)处理黏虫12、24和48 h,LD_(30)和LD_(50)处理24 h,CYP9A113基因表达呈诱导效应;0.1和0.5 mg/mL香豆素处理6、12、24和48 h,CYP9A113基因表达均呈诱导效应;0.1和0.5 mg/mL吲哚-3-甲醇处理3、6、12、24和48 h,CYP9A113基因表达均呈诱导效应。     

褐壳蛋鸡的蛋壳颜色(综述)(续1)

上期回顾:上一期介绍了褐壳蛋鸡所产鸡蛋的蛋壳中色素主要成分是原卟啉Ⅸ,但也存在微量的胆绿素及其锌螯合物,并介绍了计算蛋壳颜色的方法。     

中国与俄罗斯农业合作状况与发展思路

农业是人类的生存之本,也是中国的根基产业。自“一带一路”倡议提出以来,中国农业农村部等部门,不断开辟新的领域,积极推动与沿线国家的农业合作发展。俄罗斯是中国“一带一路”战略的重要合作伙伴,两国长期在农业方面互有合作,但目前合作的规模还较小,效率还较低,尚未达到预期效果。在经济全球化趋势愈加明显的背景下,中俄两国应抓住机遇,不断深化两国在农业方面的合作,以推动双方农业经济发展。本文通过简述俄罗斯农业现状,并通过对两国在农产品贸易、农业投资、农业教育与科技合作等方面的具体情况与存在问题进行分析,提出了推动中俄两国农业合作的思路,以期为国内各部门和相关企业与俄罗斯开展农业合作提供参考。     

Policy options for Agriculture Green Development by farmers in China

Farmers are the key agents who manage land and water. Agriculture Green Development (AGD) requires a transformation in farming from high resource consumption and environmental cost to sustainable intensification with high productivity, high resource use efficiency and low environmental risk. This paper analyzes the public policy challenge of AGD and makes the case for a location-sensitive policy mix made up of regulation, advice provision, voluntarism and targeted incentives. The public agricultural extension service in China is a key resource, but one that requires reorientation and reform with the aim of better balancing high farm productivity with environmental protection.     

Towards the sustainable intensification of agriculture—a systems approach to policy formulation

The sustainable intensification of agriculture involves providing sufficient food and other ecosystem services without going beyond the limits of the earth’s system. Here a project management approach is suggested to help guide agricultural policy to deliver these objectives. The first step is to agree measurable outcomes, integrating formal policy goals with the often much less formal and much more diverse goals of individual farmers. The second step is to assess current performance. Ideally, this will involve the use of farm-scale metrics that can feed into process models that address social and environmental domains as well as production issues that can be benchmarked and upscaled to landscape and country. Some policy goals can be delivered by supporting ad hoc interventions, while others require the redesign of the farming system. A pipeline of research, knowledge and capacity building is needed to ensure the continuous increase in farm performance. System models can help prioritise policy interventions. Formal optimization of land use is only appropriate if the policy goals are clear, and the constraints understood. In practice, the best approach may depend on the scale of action that is required, and on the amount of resource and infrastructure available to generate, implement and manage policy.