Synergic Effect of Flooding and Nitrogen Application on Alleviation of Soil Sickness Caused by Aerobic Rice Monocropping

Abstract

The “aerobic rice” system is the cultivation of high yielding rice cultivars under non-flooded conditions in non-puddled (aerobic) soil with supplemental irrigation. The major constraint in wide adoption of aerobic rice technology is soil sickness caused by continuous monocropping due to still unknown factors. The possible role of flooding and nitrogen application in alleviating the soil sickness caused by continuous monocropping of aerobic rice was examined by pot experiments. Plants were grown aerobically or anaerobically on the soil collected from a field grown with aerobic rice for 12 consecutive seasons. The results showed that flooding alleviated soil sickness, but not as much as soil oven-heating treatment (120ºC for 12 hr). Application of ammonium sulfate improved plant growth up to the level of oven-heating treatment, while ammonium sulfate application and flooding exceeded the soil oven-heating treatment significantly. The synergy of flooding with ammonium sulfate application was greater than that with urea. These results suggest that soil sickness caused by continuous aerobic monocropping can be alleviated by flooding and ammonium sulfate application.     

Recovery of nitrogen from different sources following applications to winter wheat at and after anthesis

The effects of applying nitrogen (30 or 40 kg N/ha) to wheat crops at and after anthesis, after 200 kg N/ha had already been applied to the soil during stem extension, were studied in field experiments comprising complete factorial combinations of different cultivars, fungicide applications and nitrogen treatments. Actual recoveries of late-season fertilizer nitrogen (LSFN), as indicated by ¹⁵N studies, interacted with cultivar and fungicide treatment, and depended on nitrogen source (urea applied as a solution to the foliage, or as ammonium nitrate applied to the soil) and year. These interactions, however, were not reflected in apparent fertilizer recoveries ((N in grain with LSFN − N in grain without LSFN)/N applied as LSFN), or in the crude protein concentration. Apparent fertilizer recovery was always lower than actual recoveries, and declined during grain filling. Fertilizer treatments with higher actual fertilizer recoveries were associated with lower net remobilisation of non-LSFN (net remobilised N = N in above ground crop at anthesis − N in non-grain, above ground crop at harvest). LSFN also increased mineral nitrogen in the soil at harvest even when applied as a solution to the foliage. These effects are discussed in relation to potential grain N demand.     

Partitioning of dry matter and nitrogen to the spike throughout the spike growth period in wheat crops subjected to nitrogen deficiency

Experiments were conducted over four seasons, in the field, with five cultivars. Nitrogen (N) fertilizer was applied to crops at various dates and rates to achieve various N deficiencies. Crop N status and the accumulation of dry matter (DM) and N in the vegetative parts and in the spike was assessed regularly throughout the spike growth period. Changes in partitioning during the spike growth period were studied using cv. Soissons. For crops subjected to continuous N deficiencies starting on various dates, the proportion of aerial DM in the spike was lower and the proportion of aerial N in the spike was higher than in well-fertilized crops. The earlier the deficiency, the larger were the differences in partitioning. Some crops were subjected to temporary nitrogen deficiencies. In these cases, a nitrogen deficiency starting on a particular date was brought to an end by applying N fertilizer. Crops exposed to temporary N deficiencies displayed a higher proportion of aerial DM and a lower proportion of aerial N in the spike than did crops subjected to continuous deficiencies. Differences in DM and N partitioning became significant at the beginning of the spike growth period if crop N status had been affected by deficiency as early as 800 or 700 degree days before anthesis. At anthesis, the relative proportion of aerial N in the spike (proportion of aerial N in the spike of a crop divided by the proportion of aerial N in the spike of its well-fertilized control) was linearly related to nitrogen nutrition index (NNI), an indicator of crop N status. This relationship was determined for Soissons and four other cultivars. It did not differ significantly between cultivars or between crops subjected to temporary or continuous deficiency. Relative aerial N content and relative spike N content were also related to NNI at anthesis.     

不同产量潜力小麦品种氮素积累与转运的差异

为探明不同产量潜力小麦品种氮素积累与转运的规律,于2019-2020年度小麦生长季,以3个产量潜力不同的小麦品种烟农1212、济麦22和良星99为供试材料,分析了3个小麦品种氮素积累、转运和籽粒产量的差异。结果表明,烟农1212在小麦拔节至开花期和开花至成熟期植株氮素积累速率显著高于济麦22和良星99,开花期和成熟期植株氮素积累量也显著高于其他两个品种;在开花后0~7 d,籽粒氮素积累量和积累速率在3个品种间无显著差异,花后7~14 d,两个指标在烟农1212和济麦22间无显著差异,但均显著高于良星99,花后21~35 d,烟农1212的籽粒氮素积累量和积累速率显著高于其他两个品种。烟农1212花前氮素转运量和开花后氮素积累量均最高。相关分析表明,籽粒产量与开花期和成熟期的氮素积累量呈极显著正相关,烟农1212较济麦22和良星99分别增产9.32%和14.10%,获得最高的氮素吸收效率、氮素收获指数和氮肥偏生产力。在本试验条件下,烟农1212是开花期和成熟期氮素积累量、花前氮素转运量和产量最高的小麦品种。     

Impact of late-season N fertilisation strategies on the gluten content and composition of high protein wheat grown under humid Mediterranean conditions

The rise in high protein common wheat in humid Mediterranean areas has determined a need to compare specific and effective nitrogen (N) fertilisation protocols in order to increase their end-use value. The aim of the work was to assess the impact of late-season N fertilisation strategies on grain yield and protein content (GPC), gluten fraction composition, and rheological traits. Different applications and types of fertiliser (soil applied ammonium nitrate, soil applied urea, foliar applied urea and a foliar applied commercial fertiliser) were distributed at the same rate (30 kg N ha⁻¹) in a field experiment in NW Italy, during three growing seasons. A control without any late-season N fertilisation was also considered. All the treatments received 130 kg N ha⁻¹ as ammonium nitrate (AN), which was split between tillering and the beginning of the stem elongation growth stages.None of the compared late-season N fertilisations significantly affected canopy greenness and stay green duration during the grain filling period, or the grain yield, test weight, and thousand kernel weight, although the foliar application significantly increased foliage burning (+9.8%). The late application of N consistently increased GPC (+1.1%) and dough strength (W, +21%) in the different growing seasons. The type of fertilisation strategies clearly affected the gluten content and rheological parameters: AN was more effective than urea as a soil top-dressed applied fertiliser in increasing W (+10%), as a result of a higher rise in the GPC content (+0.5%) and extensibility (L, +11%). The foliar application at anthesis, at the same N rate, led to a comparable GPC and W with those of the soil top-dressed granular fertiliser. Only a weak effect of granular urea on y/x type HMW was observed for the gluten composition. Conversely, a notable influence of year was observed (i.e. GS/Glia and y/x type HMW), which in turn resulted in a significant impact on W and P and on the aggregation time and aggregation energy.This study offers a further contribution to the improvement of specific N fertilisation strategies in order to enhance the wheat quality according to its end-use value.     

Fumigation and Fertilizer Nitrogen Source Effects on Potato Yield,Quality, and Early Dying

Research has shown that while fumigation and use of ammonium N can both reduce the severity of verticillium wilt (Verticillium dahliae Kleb.) of potatoes (Solanum tuberosum L.), the use of the two practices together raises concerns over feeding the crop only ammonium N under reduced nitrification conditions. To assess the validity of this concern, we conducted two 3-year field split-plot experiments with both using metam sodium fumigant (none, fall or spring applied) as the main plot. For the first experiment, N source (134 kg N ha^?1 as ammonium sulfate, urea, or ammonium nitrate) was the split, whereas for the second trial in-season N rate (0, 67, 134, or 202 kg N ha^?1 all as ammonium sulfate) was the split. For both trials, in 2 of the 3 years, fumigation significantly increased tuber yield by an average of 9.9 Mg ha^?1 and decreased late-season verticillium severity ratings from 77 to 45%. In some years, fumigation also increased the proportion of U.S. No. 1 tubers and tubers >170 g. No differences in crop yield or quality were observed between the various N sources applied. This was true even on spring-fumigated areas with the highest rate of ammonium N applied. These experiments confirm that the choice between in-season potato N fertilizer should be based on factors such as potential for benefits or N losses, cost, and convenience of use rather than concern over an interaction between fumigation and ammonical N. While both fumigation and N rate reduced verticillium severity ratings in some years, the lack of interaction suggests these factors are functioning independently.     

Nitrogen fertilizer efficiencies on potatoes

Nitrogen fertilizer efficiencies must be known to successfully apply N fertilizer according to crop growth needs. The objective of this study was to determine the recovery, partitioning, and translocation of N fertilizer applied at different times for potato production. Russet Burbank potatoes were fertilized preplant with¹⁵N-depleted ammonium sulfate, and during early and late tuber growth with urea containing K¹⁵NO₃ in 1978 or (¹⁵NH₂)₂CO in 1980. All N applications increased tuber yields above the control treatments. The N recovery efficiency was 60% for the preplant N application, and over 80% and near 60% for the N applications during tuber growth in 1978 and 1980, respectively. Good agreement was found between the isotope and difference methods of determining N recovery efficiencies. Labeled N was initially concentrated in the stems and leaves, particularly if applied during tuber growth. Over 80% of the assimilated, labeled nitrogen was found in the tubers at the start of plant maturation. These data indicate that a significant improvement in N fertilizer efficiency would result from split N fertilizer applications made according to crop growth needs.     

冬小麦同化物、氮素转移量和转移效率对氮肥的反应

为探究不同品种冬小麦花前同化物和氮素转移对氮肥的反应,以NR9405、9430、偃师9号、小偃6号、陕229号和西农2208等冬小麦品种为供试材料,通过盆栽试验,测定和分析了土壤不同供氮状况下冬小麦花前同化产物和氮素转移的变化。结果表明,施用氮肥可显著增加冬小麦花前干物质转移量和转移效率以及花前和花后吸氮量、花前氮转移量,提高花前干物质对籽粒的贡献率、总吸氮量和籽粒产量,但降低了花前氮的转移效率、对籽粒的贡献率和氮素利用效率。品种间花前干物质转移量、转移效率、对籽粒的贡献率、籽粒产量以及花前吸氮量、花后吸氮量、总吸氮量、花前氮转移量、转移效率、对籽粒的贡献率、氮素利用效率均存在显著或极显著差异。施氮后不同品种的干物质和氮素各性状指标变化幅度明显不同,说明品种之间对氮肥反应的敏感程度有差异。因此通过改变遗传因素和氮肥施用量可促进冬小麦花前同化物和氮素向籽粒的转移．提高籽粒产量和氮素利用效率。     

滴灌施氮对赤红壤酸化的影响

通过盆栽试验研究滴施不同品种氮肥对赤红壤酸化过程的影响.结果表明,在滴施硫酸铵、硝酸铵和尿素的条件下,各个土层的pH值都有所降低,同时,土壤的交换性铝含量有一定程度的增加;种植玉米的处理在滴头正下方各个土层的pH值均高于不种植玉米的处理,而交换性铝含量则低于不种植玉米的处理.种植玉米能够缓解滴施氮肥后的土壤酸化,降低土壤交换性铝含量.     

水氮限量供给下两个高产小麦品种物质积累与水分利用特征

为给小麦节水高产高效栽培提供科学依据,以主栽小麦品种济麦22和石麦15为材料,在大田条件下,设置2个灌水水平[春灌一水(W1)和春灌二水(W2)],在每个灌水水平下设置2个施氮量处理[192kg.hm-2(N1)和270kg.hm-2(N2)],探讨了有限水氮供给条件下两品种的干物质生产与水分利用特征。结果表明:(1)在W1水平下,济麦22的N1与N2处理籽粒产量和水分利用效率无显著差异,石麦15的N1处理籽粒产量和水分利用效率显著高于N2处理;在W2水平下,两品种籽粒产量和水分利用效率均以N1处理较高;在相同施氮水平下,两品种籽粒产量和水分利用效率均以W2处理较高;在不同水氮处理下,济麦22籽粒产量和水分利用效率高于石麦15。(2)在相同灌溉水平下,两品种花后物质积累量和分配比例均以N1处理高于N2处理;在相同施氮水平下,两品种花后物质积累量和分配比例均以W2处理高于W1处理;2个品种比较,石麦15花后物质积累量和分配比例高于济麦22,而济麦22花前物质积累量及其对产量的贡献率高于石麦15。(3)在不同水氮处理下,济麦22总耗水量、土壤贮水消耗量及花后耗水比例均大于石麦15。综合上述结果认为,两小麦品种在W2N1水氮组合下可实现高产与水分高效利用的协调统一。     

The effects of rates of application and sources of nitrogen on nitrate concentration in oat forage

A field experiment was conducted during the winter seasons of 1972–73 and 1973–74 to study the effects of rates of application (0, 100, 200 kg ha^?1) and sources of nitrogen (ammonium sulphate, calcium ammonium nitrate, urea, sulphur-coated urea and sulpha-thiazole-treated urea) on nitrate-N concentration in oat (Avena sativa L.) forage. N application increased the nitrate-N concentration, the effects being more marked when the rate was increased from 100 to 200 kg ha^?1 than when it was raised from 0 to 100 kg ha^?1. The highest nitrate-N concentration in the dry matter (> 0·16%) was obtained when calcium ammonium nitrate was applied at 200 kg ha^?1 N. Sulphur-coated urea gave the lowest nitrate-N concentration. In one year treatment of urea with sulphathiazole reduced nitrate-N concentration in oats forage.     

不同春生叶龄期追氮对冬小麦产量形成和抗倒性能的影响

为明确兼顾冬小麦高产和抗倒伏的春季最佳追氮时期,设置品种、追氮期二因素裂区试验,其中,2015-2016年以山农16（SN16）和石新828（SX828）2个品种为主区,2016-2017年以藁优2018（GY2018）、科农2009（KN2009）和石4366（SH4366）3个品种为主区,两年均以春3、4、5、6叶伸出时分别追施总施N量240 kg·hm^-2中的50%氮肥（分别用N3～N6表示）为副区。在关键生育时期调查群体总茎数,成熟期调查茎秆抗倒伏相关性状及产量构成因素。结果表明,拔节至孕穗期一般以N3或N4处理总茎数最多,开花至成熟期一般以N4处理的穗数最多,N5处理的成穗率最高;孕穗期至开花后24 d,N4处理的叶面积指数（LAI）最大,N6处理的最小;大部分品种以N4处理的株高最高,不同叶龄期追氮处理的重心高度则因品种而异;N4处理小麦基部第2节间最长,节间充实度和机械强度最小,N3和N4处理的抗倒指数最低。抗倒指数和机械强度与株高、重心高度、节间长度均呈极显著负相关,与节间直径、茎壁厚度和充实度均呈极显著正相关。不同叶龄期追氮对每公顷穗数和穗粒数的影响较小,大部分小麦品种以N4处理的穗数最多,且施氮处理间的差异一般不显著。石新828和藁优2018各施氮处理千粒重的差异不显著,另外3个品种N4处理的千粒重高于其他处理。5个品种中除藁优2018以N5处理的籽粒产量最高外,其他品种均以N4处理的籽粒产量最高,且均与N5处理的差异不显著。综合来看,春4叶期追氮产量性状最优而倒伏风险最大;春5叶期追氮的籽粒产量与春4叶期追氮的差异不显著,但其抗倒能力显著提高,可以兼顾高产和抗倒伏,因此,春5叶期为河北平原春季最佳追氮时期。在灌水条件常成为限制因素的该地区小麦生产中,春4叶至春5叶期根据水源情况灌水和随水追施氮肥,都是比较适宜的。     

Analysis of yield-attributing traits for high-yielding wheat lines in southwestern Japan

Development of wheat cultivars that achieve high yields despite the short growing season is essential for increasing wheat production in southwestern Japan. The objectives of this study were to assess the genetic progress in grain yield and to clarify yield-attributing traits of high-yielding wheat lines in southwestern Japan. We conducted field experiments for two growing seasons (2012–2013 and 2013–2014) using three commercial wheat cultivars (Shiroganekomugi, Chikugoizumi, and Iwainodaichi) and four high-yielding wheat lines including Hakei W1380 developed in southwestern Japan. In an ancillary field experiment, we compared a commercial cultivar, Shiroganekomugi, and a high-yielding line, Hakei W1380, in the 2014–2015 season. Across the two seasons, grain yield of high-yielding lines was generally higher than commercial cultivars. Hakei W1380 achieved the highest grain yield across the two seasons, and successfully produced more than 900 g m^?2 in the 2013–2014 season. Correlation analysis showed that recent yield progress of wheat lines in southwestern Japan was derived from enhanced biomass production and grain number m^?2. Larger numbers of grains m^?2 in high-yielding lines than in commercial cultivars were associated with higher crop growth rate at the pre-anthesis stage, and therefore higher spike dry weight m^?2 at anthesis. Genotypic differences in crop growth rate from jointing to anthesis resulted mainly from differences in leaf area index. These results indicate that further improvements in grain yield in southwestern Japan could be achieved by increasing the amount of radiation intercepted at the pre-anthesis stage and grain number m^?2.     

水氮限量供给下两个高产小麦品种氮素吸收与利用特征

为给华北地区冬小麦节水高产高效栽培提供理论依据,选用当地两个主栽冬小麦品种济麦22和石麦15为材料,在大田春灌一水(W1)和春灌二水(W2)2个灌水条件下均设置192kg.hm-2(N1)和270kg.hm-2(N2)2个施氮水平,研究了在水氮限量供给下冬小麦氮素吸收利用特征。结果表明:(1)在W1水平下,济麦22籽粒产量N1与N2处理无显著差异,石麦15籽粒产量N1处理显著高于N2处理;在W2水平下,两个小麦品种均以N1处理籽粒产量最高;在相同施氮水平下,两个小麦品种籽粒产量均以W2处理最高;在不同水氮处理下,济麦22籽粒产量高于石麦15。(2)在相同灌溉水平下,两品种氮素利用效率和氮肥生产效率均以N1处理较高;在相同施氮水平下,两个品种氮素利用效率和氮肥生产效率均以W2处理较高;在不同水氮处理下,济麦22氮素利用效率和氮肥生产效率高于石麦15。(3)在相同灌溉水平下,两小麦品种花后氮素积累量和分配比例均以N1处理最高;在相同施氮水平下,两小麦品种花后氮素积累量和分配比例均以W2处理最高。在不同水氮处理下,石麦15花后氮素积累量和分配比例高于济麦22。(4)方差分析表明,灌溉、品种、氮肥以及氮肥与品种、灌溉与氮肥的互作对籽粒产量影响均达显著水平,其中灌溉效应起主导作用。综合分析认为,两个小麦品种在限量供水(W2水平)、适量供氮(N1)处理下可以协调促进花后氮素积累、分配和有效转运,获得高产、高氮素利用效率和高氮肥生产效率。     

The efficacy of repeated applications of the urease inhibitor N-(n-butyl) thiophosphoric triamide for improving the efficiency of urea fertilizer utilization on temperate grassland

The effect of N-(n-butyl) thiophosphoric triamide (nBTPT)-amended urea on herbage dry-matter yield and nitrogen offtake by perennial ryegrass (Lolium perenne) was studied in fifteen grassland experiments at two sites in Northern Ireland between 1994 and 1996. The dry-matter yield and N offtake with applied urea was only significantly lower than that with applied calcium ammonium nitrate (CAN) on four occasions. On these occasions nBTPT increased the yield from the application of urea making it almost as effective as CAN. There was no evidence of any adverse effect on grass production with repeated applications of nBTPT-amended urea over a 3-year period and no indication that its efficacy to reduce NH₃, loss from ureatreated swards declined when used repeatedly on the same soil.     

灌水对不同小麦品种耗水特性和土壤硝态氮运移的影响

为了解灌水对不同小麦品种耗水特性和土壤硝态氮运移的影响,在大田条件下,以济麦20和泰山22为材料,设置4种水分处理[W0处理（全生育期不灌水）、W1处理（灌底墒水＋拔节水）、W2处理（灌底墒水＋拔节水＋开花水）、W3（灌底墒水＋拔节水＋开花水＋灌浆水）],每次灌水量60mm,分析了不同灌水处理下小麦0～200cm土层土壤含水量、土壤水消耗量、土壤硝态氮运移及籽粒产量的差异。结果表明,（1）依据土壤含水量受灌水影响的程度和变异系数,将0～200cm土壤分为3个层次：活跃层（0～60cm）、次活跃层（60～140cm）和相对稳定层（140～200cm）。（2）两品种W1处理的冬前、开花和成熟期0～60cm土层土壤硝态氮含量低于W0处理;冬前期60～140cm土层高于W0处理,140～200cm土层与W0处理无显著差异;开花期60～140cm和140～200cm土层高于W0处理;成熟期0～60cm土层高于W2、W3处理,60～140cm和140～200cm土层低于W3处理。拔节期济麦20W1处理60～140cm和140～200cm土层土壤硝态氮含量高于W0处理,泰山22的低于W0处理。（3）济麦20各处理0～200cm土层土壤水消耗量均高于泰山22。济麦20W1处理0～60cm和60～140cm土层土壤水消耗量高于W2处理,籽粒产量、水分利用效率高于W2、W3处理;泰山22W2处理0～60cm土层的土壤水消耗量与W1处理无显著差异,60～140cm和140～200cm土层的土壤水消耗量低于W1处理,水分利用效率与W1处理无显著差异,但高于W3处理,籽粒产量高于W1、W3处理。济麦20和泰山22分别以底墒水、拔节水各灌60mm和底墒水、拔节水、开花水各灌60mm为节水、高产、氮素淋溶量低的最佳灌水模式。     

氮高效玉米杂交种的筛选及氮效率相关特性分析

选用生产中常用的8个玉米杂交种作为材料,在高氮和低氮条件下进行氮高效杂交种的筛选和氮高效指标研究。主成分分析结果表明,郑单958、金山27、郑单17为氮高效品种。通径分析表明,吸收效率对氮效率的贡献均大于利用效率,不论是否施氮,植株氮积累均以花前为主,但花后差异显著,花前氮积累对氮效率的贡献较大。不论施氮与否,完熟期全株干重、吐丝期穗三叶含氮量、花前氮积累量、穗位叶光合速率均是重要的筛选指标,不施氮肥时子粒含氮量也是重要的筛选指标。     

Contribution of Nitrogen Absorbed during Ripening Period to Grain Filling in a High-Yielding Rice Variety,Takanari

Absract

High-yielding rice varieties require a large accumulation of N in panicles. The objectives of this study were to clarify the change in N allocation during the ripening period (Exp. 1) and to quantify the contribution of N absorbed during the ripening period to panicle N at maturity (Exp. 2) in the high-yielding variety Takanari in comparison with that in Nipponbare as a control. In Exp. 1, ¹⁵N-labeled N (¹⁵N) was applied at heading to investigate the distribution of newly absorbed N as well as the allocation of plant N. In Exp. 2, split ¹⁵N application was performed during the filling period to estimate the above contribution. In Exp. 1, the allocation of plant N and absorbed ¹⁵N to the panicles was larger and that to the leaves was smaller in Takanari than in Nipponbare during the ripening period, although Takanari accumulated more N at maturity. The difference in N allocation suggested that the difference in N demand in panicles would be larger than that in N uptake. In Exp. 2, the varietal difference in the grain filling duration was observed: Nipponbare accumulated little N in the panicles after 28 d after heading (DAH), while Takanari accumulated about a quarter of its panicle N during that time. An estimate showed that in Takanari, 13.5% of the panicle N was derived from N absorbed after 28 DAH. These results suggest that the utilization of newly absorbed N until a later period after heading is important for the achievement of high yields.     

硫包膜缓释肥施用模式对稻茬冬小麦冠层结构、光合特性和产量的影响

为研究硫包膜缓释肥施用方式对稻茬冬小麦冠层结构和光合性能的影响,于2019-2020年进行田间试验,以硫包膜掺混肥(SCU,N∶P_2O_5∶K_2O=26∶12∶12)和尿素(U,46.3%N)为供试肥料设计6种施肥模式:尿素4次分施(M_1);100%SCU一次基施(M_2);60%SCU基施+40%U拔节期追施(M_3);60%SCU基施+40%SCU返青期追施(M_4);51%SCU基施+34%U拔节期追施(M_5,在M_3基础上减氮15%);51%SCU基施+34%SCU返青期追施(M_6,在M_4基础上减氮15%),研究不同施肥模式下小麦花后叶面积、冠层光截获特征、旗叶叶绿素荧光和光合指标等的差异。结果表明,在冠层结构方面,M_4和M_6模式在开花期的LAI较高,且乳熟期降幅较低,延缓了冠层叶片的衰老,提高冠层尤其是中下部的PAR截获率;M_1、M_2、M_3和M_5模式乳熟期的LAI降幅均较大,显著低于M_4和M_6模式,不利于冠层对光能的有效利用。在小麦光合性能方面,M_3、M_4和M_6模式在开花期旗叶的SPAD值和净光合速率均较高,但在乳熟期M_3模式降幅较大;M_4和M_6模式在乳熟期维持较高的SPAD值、光合电子传递速率和净光合速率,二者的3个指标均显著高于M_1、M_2和M_5模式。M_4和M_6模式相比于M_1模式,分别增产21.31%和10.76%,氮肥利用率分别提升4.36%和7.07%。本试验条件下,硫包膜缓释肥60%基施+40%返青期追施最有利于维持小麦花后合理的冠层结构,提高了光合性能和产量,是高产高效的施肥方式;硫包膜缓释肥51%基施+34%返青期追施模式小麦的光合性能和产量仍可维持较高水平,且提升了氮肥利用率。     

Effects of Seeding Rate and Nitrogen Application Rate on Grain Yield and Protein Content of the Bread Wheat Cultivar ‘Minaminokaori’ in Southwestern Japan

Abstract

We examined the effects of seeding rate, 50 or 150 seeds m-², nitrogen (N) application rate at active tillering and jointing, 4 and 2 g N m-², respectively, or none, and N application rate at anthesis, 0, 2, 4, or 6 g N m-², on grain yield and protein content of a bread wheat cultivar, ‘Minaminokaori’, during the 2004–2005 crop season in southwestern Japan. Grain yield was similar at a seeding rate of 50 and 150 seeds m-². It was higher when 4 and 2 g N m-² were applied at active tillering and jointing, respectively (4–2N), than when no N was applied at these stages (0–0N). However, it was not influenced by N application rate at anthesis. Grain protein content was similar at 50 and 150 seeds m-². It was higher in 4–2N than in 0–0N. It was the highest when 6 g N m-² was applied at anthesis, followed by 4, 2, and 0 g N m-². The SPAD value at anthesis was higher at 50 than 150 seeds m-², but leaf area index (LAI) at anthesis was similar at 50 and 150 seeds m-² and protein content of grain was nearly the same at 50 and 150 seeds m-² irrespective of N application rate at anthesis. LAI and the SPAD value were higher in 4–2N than in 0–0N and the protein content of grain was also higher in 4–2N than in 0–0N irrespective of N application rate at anthesis. Therefore, both LAI and the SPAD value may be important traits related to the N application rate at anthesis suitable for yielding wheat grain with a high protein content.