不同氮肥用量与施肥时期对冷浸田单季稻 生长及农学效率的影响

冷浸田为福建省主要低产田类型之一。基于福建省浅脚烂泥田、青泥田与锈水田主要冷浸田类型,通过田间3个点试验研究不同氮肥用量(105、150与195 kg/hm~2)与施用时期(基蘖肥︰穗肥=10︰0与基蘖肥︰穗肥=7︰3)运筹组合对单季稻生长的影响。结果表明,增施氮肥促进了各类型冷浸田水稻分蘖期分蘖生长速率。不同氮肥组合的锈水田、青泥田与浅脚烂泥田水稻籽粒产量分别较不施肥(CK)增幅14.5%~45.5%、9.4%~13.5%和10.4%~15.9%,但在105 kg/hm~2用量基础上再进一步增施氮肥,籽粒增产效果明显放缓。施用氮肥显著增加了成熟期水稻有效穗数,但对每穗实粒数及千粒重影响不明显。105、150、195 kg/hm~2 3种氮肥用量下各类型冷浸田的农学效率均值分别为17.4、13.3与12.8 kg/kg。除浅脚烂泥田施用穗肥的秸秆产量有显著差异外,其余氮肥不同施肥时期的籽粒与秸秆产量均无显著差异。增施氮肥有提高籽粒氮的趋势,但同时降低了籽粒钾含量。鉴于冷浸田土壤氮素水平较高,单季稻氮肥经济用量宜控制在105~150 kg/hm~2中低水平,超过150 kg/hm~2,农学效率递减,且无明显增产效果。另从人工成本及效益考虑,宜选择基蘖肥︰穗肥=10︰0的施氮方式。     

Uptake and remobilization of selenium in Brassica napus L. plants supplied with selenate or selenium‐enriched plant residues

Selenium (Se) biofortification via crops is one of the best strategies to elevate the daily Se intake in areas where soil Se levels are low. However, Se fertilizer recovery (SeFR) is low and most of the Se taken up accumulates in non‐harvested plant parts and returns to the soil with plant residues. A pot experiment with soil was undertaken to study the efficiency of inorganic Se (Na₂SeO₄) and Se‐enriched plant residues for biofortification, as well as to identify the bottlenecks in Se utilization by Brassica napus L. The soil was fertilized with Na₂SeO₄ (0 and 7 µg Se kg^?1) or with Se in stem or leaf residues (0 and 7 µg Se kg^?1). A treatment with autoclaved soil was included (0 and 7 µg kg^?1 as Na₂SeO₄) to unravel the impact of microbial activity on Se uptake. The Se‐enriched plant residues produced a lower Se uptake efficiency (SeUPE) and SeFR than did inorganic Se, and soil autoclaving enhanced Se accumulation in the plants. The time required for decomposition seems to preclude crop residues as an alternative source of Se. Furthermore, B. napus had a limited capacity to accumulate Se in seeds. The study shows that the bottlenecks in Se biofortification appear to be its low bioavailability in soil and poor loading from the silique walls to seeds. Thus, improved Se translocation to seeds would be a useful breeding goal in B. napus to increase SeFR.     

实地氮肥管理提高水稻氮肥利用效率

以籼型杂交稻汕优63和粳稻武育粳3号为材料进行田间小区试验,对实时氮肥管理（RTNM）和实地氮肥管理（SSNM）的农艺表现和氮肥利用效率进行了评价。结果表明,氮空白区的水稻产量为5.5~7.4 t/hm²,说明试验田背景氮颇高。与农民习惯施肥法（FFP）相比,RTNM和SSNM分别增产-4.4％~7.0%和0.2％~9.3%,氮素产谷率分别提高195.7％~297.0%和169.6％~276.4%。2003—2004年在江苏省无锡市两村共计20户稻田中进行水稻SSNM试验示范。2年FFP的氮素产谷率、吸氮利用率和生理氮转化率分别仅有2.8～6.7 kg稻谷/kg N、33.7％～34.7％和8.4～18.6 kg稻谷/kg N;SSNM的施氮量较FFP降低38.7％～41.3％,产量提高2.5％～3.5％,氮素产谷率、吸氮利用率和生理氮转化率分别提高88.3％～117.7％、34.0％～39.5％和46.1％～61.6％。在江苏省大面积推广也取得了类似结果。证明采用SSNM在不降低水稻产量的前提下,提高水稻氮肥利用率是可能的。试验也发现,农户稻田SSNM的氮素产谷率和生理氮转化率的数值依然很低。对水稻氮肥利用率低的原因及提高途径进行了讨论。     

施氮量对旱地胡麻养分积累、转运及氮素利用率的影响

通过田间试验,研究不同施氮量对胡麻产量、氮素积累转运及氮肥利用率的影响。结果表明, 在本试验土壤肥力条件下,无论施氮与否,胡麻各器官不同生育阶段氮素养分吸收、累积和转运规律的基本趋势一致,但其变化量与施氮量有极大关系。施氮量为55.2kg/hm2时,叶和茎中的氮素向籽粒的转移量、转移率及对籽粒氮素的贡献率最大;叶中氮素向籽粒的转移量、转移率及贡献率要比茎高出89.18%、83.36%和86.36%。胡麻籽粒中47.10%～57.66%的氮素来源于叶,22.46%～30.94%的氮素来源于茎,21.00%～30.48%来自籽粒生长后期从土壤中的吸收。施氮量为27.6、55.2、82.8 kg/hm2时,胡麻籽粒产量分别比不施氮增加了10.21%、16.92%和15.55%。施氮量为27.6～55.2 kg/hm2时,氮肥的表观利用率、偏生产力分别为：51.10%～68.63%和51.54～97.16 kg• kg-1。本试验条件下,综合考虑产量、氮肥利用率及生态环境,施氮量在27.6～55.2 kg/hm2为宜。     

Identification of sorghum genotypes suitable for specific end uses: Semolina recovery and popping

There has always been an interest in devising breeding programs for designer foods that would benefit both the producer and consumer. The challenge today is transformation of agriculture from “subsistence farming” to “market and income generation oriented” production system for which sorghum with its diverse end uses can assume significant role. Breeding for end-use identity-specific genotypes is needed for increased profitability to the farmers. In the present study, 60 sorghum genotypes were evaluated over two years to identify genotypes suitable for semolina recovery and popping properties, i.e. popping efficiency and pop volume expansion. Semolina recovery ranged from 20.7% to 48.3%, while popping efficiency ranged from 0 to 77.5%. Semolina recovery had positive and significant association with endosperm texture (r = 0.62), grain density (r = 0.49) and grain hardness (r = 0.55) indicating that genotypes with corneous endosperm yield high semolina. Also, semolina recovery had significant positive correlation with popping efficiency (r = 0.49) indicating that genotypes suitable for semolina can also be used for popping. Genetic divergence studies indicated that out of three clusters formed, cluster II having guinea race germplasm lines are suitable for semolina and popping. The information generated and the genotypes identified will help in enhancing the demand for sorghum as an industrial crop.     

不同供水条件对冬小麦根系分布、产量及水分利用效率的影响

通过中科院栾城农业生态试验站3种不同降水年型的田间灌水试验,研究了不同供水条件对冬小麦根系分布、产量及水分利用效率的影响,旨在为华北地区冬小麦建立优化灌溉制度,提高水分利用效率,达到节水增产目的提供理论依据。试验结果表明,冬小麦根系主要集中分布在80 cm以上土层,随土层深度的增加,根长密度呈指数下降;综合分析根系对不同土层的水分吸收、作物耗水组成及产量、水分利用效率与总耗水的关系,提出华北地区冬小麦最佳灌水方式是：丰水年灌0水、平水年灌1水(拔节水)、枯水年灌2水(拔节水和抽穗水),次灌水量60～75 mm,具有明显的节水增产效益。     

硝酸还原酶与氮素利用的关系及其在作物遗传育种中的应用(综述)

本文综述了硝酸还原酶与氮素利用的关系及其遗传特性和在作物育种中应用的某些最新进展。氮吸收、利用等性状的生理和遗传特性极其复杂,受环境影响很大,对其进行遗传改良需考虑多种指标。对硝酸还原酶活性(NRA)与品质性状和产量的关系的争论很多,有些研究表明 NRA 可作为品质、产量性状的选择指标,有些则相反。逆境条件下 NRA 的变化非常敏感,NRA 可能与抗逆性有关。     

Optimisation of fertiliser rates in crop production against energy use indicators

Optimising mineral nitrogen (N) use in crop production is inevitable target as mineral fertilisers reflect one of the highest inputs both in terms of economy and energy. The aim of the study was to compare the relationship between the rate of N fertiliser application and different measures of energy parameters exemplary data for spring-wheat in boreal climate condition in Estonia in 2006–2010. The effect of mineral N with rates 0, 40, 80, 120 and 160 kg N ha⁻¹ was studied on the background of composted cow manure and without organic fertilisers. Univalent parameters, energy gain (EG) (energy output − energy input) and energy ratio (ER) (energy output/energy input) were calculated. To aggregate parameters with different units (ER and EG) we proposed two standardisation approaches for combined indices. ER maximisation gave both organic fertilisation background optimum N norms significantly lower than EG (p < 0.05) optimisation. Both the new combined indices gave optimum N norms in between the rate of ER an EG. Composted cow manure background did not affect mineral N optimisation significantly. We suggest optimisation of mineral N according to bi-dimensional parameters as they capture important features of production efficiency and are more objective using as advisory tool for sustainable production systems.     

痕量灌溉在温室大桃上的应用

试验以日光温室大桃为供试作物,以常规畦灌和滴灌为对照,研究第一代痕量灌溉系统在地膜覆盖和地表裸露两种条件下对生长、产量和水分利用的影响。结果表明：痕量灌溉管路埋深50cm且地膜覆盖处理,痕量灌溉比畦灌和滴灌分别节约灌水80．1m^3／667m^2和40．0m^3／667m^2,水分利用效率比畦灌和滴灌分别增加16．1kg／m^3和10．6kg／m^3,经济产量无显著差异;痕量灌溉管埋深5cm、地表裸露条件下,痕量灌溉此畦灌和滴灌分别节约灌水88．9m^3／667m^2和39．8m^3／667m^2,经济产量比畦灌和滴灌分别减少11．5％和25．3％。痕量灌溉在果树上应用时,宜地膜覆盖并埋深30cm。     

调亏灌溉和氮处理对小桐子生长及水分利用的影响

为了研究阶段水分亏缺(亏水+不亏水W_LW_H、不亏水+亏水W_HW_L、亏水+亏水W_LW_L、不亏水+不亏水W_HW_H)和不同施氮量(N_Z:0,N_L:0.2 g/kg,N_H:0.4 g/kg)对小桐子生长、生理指标和灌溉水利用效率的影响,通过盆栽试验,发现W_LW_H的生长和灌溉水利用效率均显著高于W_HW_L;作物的灌溉水利用效率随施氮量的增大而呈现先增大后减小的趋势,在N_L水平下达到最大值;与高水高氮的处理N_HW_HW_H相比,中水低氮处理N_LW_LW_H节约灌溉水27%,节约氮肥使用量50%,小桐子株高减少31%、总干物质量减少35%,灌溉水利用效率减少13%,但茎粗增加13%,根冠比增加20%.可见小桐子在第一阶段处理(40~90 d)幼树期对水分的需求量较小,适度的亏缺灌溉可提高灌溉水利用效率;小桐子在第二阶段处理(90~140 d)处于旺长期,对水分的需求量较大,增大灌水量可大幅度促进小桐子生长及其干物质量的积累.全生育期实施亏缺灌溉,可提高小桐子自身适应外界环境能力,抗干旱胁迫能力也逐渐增强,但W_LW_L水平下的小桐子生长缓慢.经综合分析,认为处理N_LW_LW_H可作为干旱地区条件下的小桐子灌溉和施氮制度.