Using a Chlorophyll Meter to Optimize Nitrogen Fertilizer Application for Intensively-Managed Small-Grain Cereals

Most methods used to estimate N status require collection, processing and analysis of soil and/or plant tissue samples. In this study, leaf chlorophyll content of cereals, determined in the field with a portable chlorophyll meter (Minolta SPAD-502), was used to predict N availability of wheat ( Triticum aestivum L.), barley ( Hordeum vulgare L.), oats ( Avena sativa L.) and rye ( Secale cereale L.). The results indicated that accurate nitrogen (N) fertilizer recommendations based on chlorophyll content have both environmental and economic advantages. Determination of leaf chlorophyll content with a chlorophyll meter accurately indicated plant N status allowing N fertilizer requirement to be accurately determined and resulting in increased N uptake efficiency. Applying N fertilizer on this basis improved production economics and improved physical input-output ratio during grain yield formation. Using a chlorophyll meter, responsive and non-responsive categories can be determined at the stage of maximum number of florets per ear primordium (Zadoks' GS 37-41) and at pollination (i.e. pollen grains on well-developed stigmatic hairs, GS 52-58).     

红菜苔种株采收适期的研究

该试验分析了红菜苔（Brassicacampestuisvarpurpurea）种株不同采收期对种子产量和种子质量的影响。种子质量是以种子活力、种子发芽力和种子大小进行评价的。结果显示，红菜苔十月红一号品种在种株最老熟荚果内籽粒变色后13天为最佳采收期。     

Effect of varied N rates and N timings on yield, N uptake and fertilizer N use efficiency of a six-row and a two-row winter barley

The effects of N rates and N timings on yield formation, N uptake at five growth stages and fertilizer N use efficiency of six-row and two-row winter barley were evaluated in field trials conducted from 1990/91 to 1992/93 at the TU Munich's research station Roggenstein.

On average over 3 years the six-row cultivar yielded most at a total rate of 110 kg ha⁻¹ N including an early application of 40 kg ha⁻¹ N up to EC 30 (Zadoks scale). The two-row cultivar achieved maximum yield at a total rate of 140 kg ha⁻¹ N including early applications of 70 kg ha⁻¹ N up to EC 30. The highest yielding N-treatments of six-row barley regularly took up less nitrogen at EC 32 (95 kg ha⁻¹ N on average) than the non-optimally fertilized treatments, whereas full exploitation of the yield potential of two-row barley was associated with higher rates of N-uptake at EC 32 (113 kg ha⁻¹ N on average).

Lodging did not occur in the trials conducted in 1991 and 1992 and no difference was detected between the two cultivars in fertilizer N use efficiency. With six-row barley the N treatment giving maximum yield also led to an optimum fertilizer N use efficiency. Full exploitation of the two-row barley yield potential was associated with suboptimal fertilizer N use efficiencies.     

作物水分利用率的影响因素及其提高途径探讨

综述了作物水分利用率的研究进展。在探讨水分利用率内涵的基础上，阐述了作物水分利用率的影响因素如作物，环境因素，化学制剂，栽培措施和耕作制度等人类活动等影响因素，重点分析了土壤因素和化学制剂对作物水分利用率的影响，探讨了作物水分利用率的提高途径，包括优化种植结构；选用节水高产型品种；农田覆盖保水技术；水肥耦合技术；化学调控节水技术和节水灌溉技术等     

肥料深施对小麦生育性状、养分吸收及产量的影响

几年来在豫东潮土地区砂质土上进行的肥料深施效果试验研究结果表明,肥料深施对小麦的生育状况和经济性状有较大影响,肥料深施与浅施比较,可使小麦植株前期生长健壮,中后期生长稳健,落黄好,穗大粒多,籽粒饱满。可显著增加小麦养分吸收量,提高化肥利用率,肥料深施处理比浅施处理氮、磷、钾的吸收量,分别增加34.32￣67.81kg/hm2,3.22￣9.42kg/hm2和17.82￣39.84kg/hm2;氮素化肥利用率提高20.86￣41.1个百分点,磷肥利用率提高7.13￣15.39个百分点;肥料深施在小麦田里养分残留量较浅施的高,尽管一季小麦对土壤有机质耗竭不大,但对氮、磷素的残存已有差异。肥料深施对小麦产量、经济效益、化肥利用率有显著的影响,采用肥料深施技术比群众习惯施肥方法(浅施)可增产小麦337.1￣1183.5kg/hm2,增产率达7.6%￣26.6%,增加收益539.36￣1893.6元/hm2。     

关于上一轮县级土地利用总体规划中土地利用变化及生态环境效应的思考 ——以重庆市丰都县为例

基于重庆市丰都县1996年、2004年土地利用现状与2010年土地利用总体规划数据，运用特尔斐法、层次分析法、定量分析法，对丰都县1996—2004和1996—2010土地利用变化及生态环境效应进行对比定量分析研究。结果表明：（1）土地利用格局均发生了明显变化，耕地、未利用土地减少，园地、林地、水域、交通用地增加；（2）土地利用变化引起的生态环境质量变化均呈改善趋势，其主要原因是退耕还园、还林，以及未利用土地的开发利用；（3）规划与实施土地利用变化及生态环境效应差异太大；（4）土地利用总体规划与实际土地利用变化一致性很差，缺乏科学性和严肃性；（5）对规划土地利用变化引起的生态环境改善重视不够。最后提出新一轮土地利用总体规划修编的建议。     

Dynamic Optimum Control and Simulation of EGCS Based on the Field Knowledge

The authors study on Elevator Group Control System(EGCS) based on the field knowledge, the dynamic optimum control method is proposed and the analysis and design models facing the object are built. Using the MFC frame construction in VC, simulation is proceeded successfully to the EGCS with dynamic optimum control. And contrasting the general method assigning the signals invoked inside the hall at the same condition, the method gets the satisfied control result.     

种肥播施方式对红壤旱地油菜产量及肥料利用率的影响

In order to explicit proper sowing and fertilizing methods of rapeseed production in red-soil dryland, a two-year field experiment covering two rapeseed seasons (2017-2018 and 2018-2019) was conducted with four treatments of sowing and fertilizing methods to analyze the impact on yield formation and fertilizer use efficiency of rapeseed, including conventional sowing and fertilizing method (T1), sowing in row with surface broadcast fertilizing (T2), synchronous sowing in uniform row with side deep fertilizing (T3) and synchronous sowing in wide-narrow row with side deep fertilizing (T4). The results were as follows: The yield and fertilizer use efficiency of rapeseed in red-soil dryland were significantly affected by sowing and fertilizing methods. Besides, these differences were more significant in poor soil condition and drought season (2017-2018) than those in nutrient-rich soil condition and rainy season (2018-2019). Compared with T1 and T2, T3 and T4 promoted the yield formation and increased its fertilizer use efficiency significantly, whereas there was no significant difference between T3 and T4. Specifically, the technique of synchronous drilling sowing with side deep fertilizing could improve dry matter production during the whole growth period of rapeseed, especially from anthesis to maturity, with a corresponding rise of dry matter accumulation of both underground and aboveground after anthesis. Meanwhile, compared with the conventional cultivation, the technique of synchronous drilling sowing with side deep fertilizing increased the uptake of nutrients (N, P and K), effective plant density and maintained sufficient pod number, and thus improved the yield and fertilizer use efficiency of rapeseed. This study indicated that the technique of synchronous drilling sowing with side deep fertilizing had the potential of improving rapeseed productivity in red-soil dryland of southern China. Therefore, it should be suggested to promote the application according to local condition.     

等离子体处理玉米对化肥利用率的影响

2004年在吉林省桦甸市桦郊乡进行了等离子体种子4种不同剂量、6个处理区的试验。经过在拔节期、成熟期干物质的化验分析和测产，结果表明应用等离子体种子处理1.0A×2和1.5A×2的剂量能促进玉米吸收养分，（N＋P2O5＋K2O）总量比CK1提高10%以上；比CK1提高化肥利用率即提高氮肥、磷肥和钾肥利用率为7.4%~8.2%、 11.3%~19.7%和 15.7%~23.5%。明确了等离子体种子处理1.0A×2的剂量，比CK1增产8.2%，效果显著。     

三峡库区农业资源持续高效利用模式研究

针对三峡库区资源环境和农业生产现状及存在问题,探讨了农业资源持续高效利用的主要生产模式,即:种—养—加—销一体化模式、农林牧复合模式、农林复合模式、种—养立体农业模式和庭院高效生态农业模式等,并结合典型案例进行分析。此外,提出了实现农业资源持续高效利用的建议和对策。