播后镇压和冬前灌溉对冬小麦干物质转移和氮素利用效率的影响

为明确播后镇压和冬前灌溉对高产冬小麦干物质和氮素转移及氮素利用效率的影响,以冬小麦品种石新828和石麦12为材料,采用裂区田间试验,于开花期和成熟期,测定不同器官的干物质和氮积累量和转移量、籽粒产量、蛋白质产量、氮吸收效率和氮肥生产效率。结果表明,冬灌和镇压处理下,2个品种开花期和成熟期的干物质积累量下降,开花前各营养器官干物质的转移量、转移率及对籽粒的贡献率均降低,但开花后籽粒中的干物质积累量增加。冬灌处理小麦成熟期的总干物质积累量和产量下降。冬灌处理下,石新828开花后籽粒中的氮积累量增加,开花后氮素对籽粒的贡献率提高,但各器官的氮转移量显著降低,籽粒氮积累总量显著减少,氮吸收效率下降;冬灌对石麦12成熟期籽粒氮素积累量影响不显著。与不镇压相比,镇压处理下,2个品种开花期的氮积累总量和不同器官中的氮积累量均降低,而成熟期各器官氮积累量及分配比例的差异均不显著。镇压处理与不镇压处理相比,2个品种开花前营养器官中的氮转移量、转移率和贡献率均降低,但是开花后的氮积累量及其对籽粒氮的贡献率提高,其中,镇压的石麦12开花前氮转移量、贡献率和开花后氮积累量、贡献率与不镇压的差异达显著水平;成熟期籽粒氮素积累量的差异不显著。建议在足墒播种条件下不必进行冬灌,应根据播种前后土壤和水分条件确定是否需要镇压。     

Radiation interception and use efficiency as affected by breeding in Mediterranean wheat

Past breeding achievements in grain yield were mainly related to increases in harvest index (HI) without major changes in biomass production. As modern cultivars have already high HI, future breeding to improve grain yield will necessarily focus on increased biomass. Improved biomass would depend on our capacity to improve the amount of photosynthetically active radiation intercepted by the crop (IPAR_%) or the efficiency with which the canopy converts that radiation into new biomass (radiation use efficiency, RUE). Four field experiments with a set of wheat cultivars selected, bred and introduced in the Mediterranean area of Spain and that represent important steps in wheat breeding in Spain were conducted in order to identify whether and how wheat breeding in this area affected the amount of IPAR_% and RUE both before and after anthesis. Although there was genotypic variability, cultivars did not show any consistent trend with the year of release of the cultivars for their biomass, pre and post-anthesis IPAR_%, Crop growth rate (CGR) or RUE but, the post-anthesis CGR and RUE of the two oldest genotypes were lower than that of the other cultivars. As the oldest genotypes have lower number of grains per m² than their modern counterparts, it is suggested that post-anthesis RUE in these cultivars was reduced by lack of sinks and therefore further increases in grains per unit area in modern cultivars could permit to improve biomass via increases in post-anthesis RUE.     

A simple method to estimate harvest index in grain crops

Several methods have been proposed to simulate yield in crop simulation models. In this work, we present a simple method to estimate harvest index (HI) of grain crops based on fractional post-anthesis phase growth (f_G = fraction of biomass accumulation that occurred in the post-anthesis phase). We propose that HI increases in a linear or curvilinear fashion in response to f_G. The linear model has two parameters, the intercept (HI_o) and the slope (s). The curvilinear model was assumed to be monotonic: HI = HI_x − (HI_x − HI_o) · exp(−k·f_G); where HI_x is the asymptote, HI_o is the intercept and k is a constant modulating the rate of HI increase. The models were tested for barley (Pullman, WA and Uruguay), wheat (Pullman, WA) and sorghum (Australia). A positive relationship between HI and f_G was in general evident. For barley, the linear model appropriately represented the response of HI to f_G, with both HI_o and s in the vicinity of 0.3. For wheat HI_o and s were 0.34 and 0.21, respectively, but the curvilinear model yielded a slightly better fitting than the linear model. For sorghum, both linear and linear-plateau models fitted data reasonably well. It is shown that the models work well in crops source-limited or source-sink co-limited during grain filling, but in sink-limited conditions the magnitude of the limitation needs to be characterized to compute HI. A major advantage of this method is that the parameters of the linear or curvilinear model are readily calibrated from yield data and biomass measurements at anthesis and harvest.     

行距配置对高产冬小麦籽粒灌浆特性及淀粉和蛋白质积累的影响

为研究不同行距配置对小麦籽粒发育及淀粉和蛋白质积累的影响,以4个高产冬小麦品种为材料,在河南浚县农业科学研究所超高产攻关田研究了不同行距配置下小麦籽粒灌浆特性及淀粉、蛋白质的积累动态.结果表明,高产小麦籽粒中可溶性糖含量下降与淀粉含量的增加趋势基本吻合,宽窄行种植模式(S1)籽粒中可溶性糖含量较高,且转化利用较快,促进了籽粒淀粉积累.从行距配置看.周麦22籽粒蛋白质含量以等行距种植模式(S2)较高,偃展4110和矮抗58均以S1较高,而豫麦49-198在两种种植模式下无明显差异.籽粒灌浆速率、千粒重和产量则表现为豫麦49-198、周麦22和矮抗58均以S较高,而偃展4110以S2较高.灌浆模型分析表明,灌浆持续天数和最大灌浆速率出现时间是行距配置影响粒重的主要因素.     

不同温光型专用小麦品种花后旗叶生理与籽粒淀粉积累特性

为探索不同温光型专用小麦籽粒淀粉的积累规律及其与植株生长状况的关系,在大田条件下,以2类温光型和3种筋型的小麦品种为材料,研究花后旗叶的生理特性和籽粒淀粉及组分积累情况。结果表明,旗叶中叶绿素含量在灌浆前期(0~21d)维持较高,后期迅速下降,但2个弱筋型品种下降速度缓慢;半冬性品种旗叶中可溶性蛋白含量均大于弱春性品种,而丙二醛(MDA)含量小于弱春性品种,差异均达极显著水平(P0.01)。不同筋型籽粒淀粉组分和总淀粉的积累动态以弱筋型品种最具优势,其直链淀粉含量均在花后14d进入快速增长期,支链淀粉和总淀粉含量在花后28d仍在持续增加,最终以半冬性弱筋品种的籽粒产量和淀粉产量最高(P0.01)。灌浆前期(0~21d),叶绿素、可溶性蛋白含量与直链淀粉、支链淀粉和总淀粉含量呈显著和极显著的相关性(P0.01,P0.05);灌浆后期(21~28d),与直链淀粉的相关性不显著,而叶绿素含量与支链淀粉含量的相关性增大。由此可见,旗叶维持较高的叶绿素、可溶性蛋白含量,较低的丙二醛含量在灌浆前期有利于直链淀粉的积累,后期有利于支链淀粉的积累。     

Responses of glutamine synthetase activity and gene expression to nitrogen levels in winter wheat cultivars with different grain protein content

Glutamine synthetase (GS) plays a central role in plant nitrogen (N) metabolism, which improves crops grain protein content. A pot experiment in field condition was carried out to evaluate GS expression and activity, and grain protein content in high (Wanmai16) and low grain protein (Loumai24) wheat cultivars under two N levels (0.05 and 0.15 g N kg⁻¹ soil). High nitrogen (HN) resulted in significant increases in GS1 and GS2 expression at 10 days after anthesis (DAA), and higher GS activity during the entire grain filling stage. HN also significantly increased yield, grain protein content and protein fraction (except for glutenin of Luomai24) in two wheat cultivars, which indicated that it increased grain yield and protein content by improving nitrogen metabolism. Wanmai16 showed higher grain protein content, gliadin and glutenin content, and had higher expression level of GS2 both in flag leaves and grains at early grain filling stage. However, Luomai24 had greater yield and higher expression level of GS1. The difference expression of GS2 and GS1 genes indicates they had various contributions to the accumulation of protein and starch in wheat grains, respectively. The results suggest that GS2 would be serving as a potential breeding target for improving wheat quality.     

施氮水平对小麦籽粒淀粉粒分布与加工品质的影响

为明确施氮对小麦淀粉粒分布与加工品质的影响,选用强筋小麦藁城8901和弱筋小麦豫麦50为材料,分析了不同施氮水平下小麦籽粒淀粉粒分布特征与部分加工品质指标。结果表明,适量施氮(240kg.hm-2)显著提高籽粒B型淀粉粒体积百分比,过量施氮(360kg.hm-2)时小麦籽粒B型淀粉粒体积百分比降低。施氮水平对两个小麦品种籽粒A、B型淀粉粒数目百分比无显著影响。在施氮0～240kg.hm-2范围内,增施氮肥可以提高籽粒直、支链淀粉积累量,而过量施氮不利于籽粒直、支链淀粉的积累。小麦湿面筋、沉淀值、面团形成时间和稳定时间等参数与A型淀粉粒体积百分比呈显著负相关,与B型淀粉粒体积百分比呈显著正相关。适量施氮能使强筋小麦加工品质变优;增施氮肥导致弱筋小麦加工品质变劣。     

施氮对稻茬冬小麦氮肥吸收利用及转运的影响

为推动稻茬冬小麦氮肥高效利用,采取15N微区试验,研究了施氮量(N₀、N_{120、N210、N300)对稻茬小麦氮素吸收、转运、产量和氮肥利用的影响。结果表明,增加施氮量能够显著提高成熟期植株对肥料氮和土壤氮的吸收量。小麦对基肥氮的吸收以越冬至拔节期最高,对追肥氮的吸收以拔节至开花期最高。植株对追肥氮的积累量均高于基肥氮,对土壤氮的积累量在N120 处理下高于肥料氮,在N210、N300 处理下则相反;N120、N210、N300 处理下植株中土壤氮积累量占总吸氮量的比例分别为57%、48%、45%。成熟期叶片、茎鞘、穗轴+颖壳和籽粒中的氮素分配比例分别为6.09%~9.70%、9.01%~11.14%、7.19%~7.48%、71.96%~ 77.42%。肥料氮对籽粒氮素的贡献率随施氮量增加而显著增加,N120、N210、N300 处理分别为45.78%、 56.22%、61.25%。植株中肥料氮的转运量、花后积累量和土壤氮的花后积累量均随施氮量增加而显著增加,而土壤氮的转运量则随施氮量的增加而下降。基肥氮、追肥氮、肥料氮和土壤氮的转运效率分别为 77.31%~79.96%、77.89%~81.80%、77.61%~81.13%、51.55%~67.64%。植株花后氮积累量对籽粒氮素的贡献率约为1/5,肥料氮和土壤氮花后积累量对籽粒中肥料氮和土壤氮的贡献率分别为9.59%~ 14.56% 和 24.11%~34.48%。施氮量超过210 kg·hm^-2 时产量增加不显著,N120、N210、N300 处理氮肥回收率分别为54.48%、48.15%、41.64%。}     

小麦苗期叶片碳氮平衡与低氮诱导的叶片衰老之间的关系

为了解小麦叶片衰老与缺氮诱导及碳氮平衡之间的关系,以两个缺氮衰老响应敏感品种(周麦24和运旱618)和两个缺氮衰老响应不敏感小麦品种(衡观35和西农979)为材料,分析了小麦苗期低氮诱导下表征叶片衰老的叶绿素含量、F_v/F_m、净光合速率,以及表征碳氮平衡的全氮和非结构性碳水化合物(可溶性糖、淀粉)比值。结果表明,低氮胁迫后,4个小麦品种叶片的净光合速率、叶绿素含量和F_v/F_m显著降低,说明低氮诱导和加速了小麦叶片的衰老,而缺氮衰老响应敏感品种的衰老程度显著高于不敏感品种。缺氮衰老响应敏感和不敏感小麦品种叶片氮含量在低氮胁迫后均显著降低,同时碳累积量(可溶性糖和淀粉含量)均显著升高。进一步分析表明,缺氮诱导的小麦叶片衰老可能并非受独立的氮缺乏和碳累积调控,而可能与碳氮平衡(碳氮比例)有关,即碳氮平衡可能参与了低氮诱导的叶片衰老调控,而缺氮下耐衰老品种的叶片维持碳氮代谢平衡的能力较强。     

施氮时期对专用小麦干物质和氮素积累、运转及产量和蛋白质含量的影响

为了明确施氮时期对小麦花后干物质和氮素积累与运转的影响及其与产量和品质的关系，在大田高产条件下，研究了不同追氮时期对二个专用小麦品种开花前后氮素同化、运转和蛋白质含量的影响。结果表明，拔节和孕穗期追氮均提高了小麦产量和籽粒蛋白质含量，但过迟追氮不利于产量和蛋白质含量的同步提高。不同追氮处理显著提高了徐麦26花后氮素积累量，降低了营养器官贮存氮素向籽粒的转运，但提高了淮麦18营养器官贮存氮素向籽粒的转运。相关分析表明，徐麦26籽粒蛋白质合成所需氮素主要来源于花后氮素同化，而淮麦18则更多地依赖于开花前贮存氨素的再动员与分配。     

Temperature,Water and Fertilizer Influence the Timing of Key Events During Grain Development in a US Spring Wheat

Controlled environments were used to define the manner in which temperature, water and fertilizer affect the timing of key transition points during grain development and to investigate the effects of combined environmental factors in a US spring wheat (Triticum aestivum (L.)). When plants were subjected to very high temperature regimens (37/17  or 37/28 °C day/night) during grain development, the times to maximum kernel water content, maximum dry weight and harvest maturity were shorter than in plants maintained under a 24/17 °C day/night regimen. Starch accumulated at similar rates, but the onset and cessation of starch accumulation occurred earlier. Apoptosis in endosperm tissue also occurred earlier under high temperatures and coincided with physiological maturity. The addition of drought to the 37/17 °C regimen further shortened the time to maximum water content and dry weight and reduced the duration of starch accumulation, but did not influence the timing of protein accumulation or kernel desiccation. Post-anthesis fertilizer had little effect on time to maximum water content, dry weight, apoptosis, or harvest maturity under any of the temperature regimens and did not influence the timing of starch accumulation. However, both the rate and duration of protein accumulation were reduced when post-anthesis fertilizer was omitted.     

Accumulation of mixed linkage (1 → 3) (1 → 4)-β-d-glucan during grain filling in barley: A vibrational spectroscopy study

The accumulation of mixed linkage barley (1 → 3) (1 → 4)-β-d-glucan (BG) during grain filling at eight stages was studied using standard reference methods and infrared spectroscopy. Two mutant barley genotypes having higher (starch mutant lys5f) and lower (high lysine mutant lys3a) BG content than the normal control Cork were studied. The Cork and lys3a genotypes showed a linear BG accumulation throughout the grain filling to reach a maximum of approximately 6 and 4% BG (w/w) dry matter, respectively. However, lys5f mutant exhibited an exponential increase in BG synthesis to a maximum of approximately 18% BG (w/w) dry matter 30 days after flowering (DAF), seemingly compensating for a decreased synthesis of starch.     

Grain weight response to foliar diseases control in wheat (Triticum aestivum L.)

Foliar diseases are the main biotic restriction reducing yield in wheat crops affecting both, grain number and/or grain weight, depending on developmental stage at which infection occurs (pre- or post-anthesis, respectively). Grain weight reductions due to foliar diseases were widely reported in the literature mostly associated with decreases on radiation interception during the grain filling period. However, different evidences in wheat showed variations on grain weight responses when fungicide was applied during the grain filling period, probably associated with the timing of fungicide application or with the amount of available resources per grain set when fungicides are applied. The present study was designed to determine the causes of grain weight reduction due to foliar diseases complex (including leaf rust, Septoria leaf blotch and tan spot) in wheat crops growing under contrasting agronomic and environmental conditions (i.e. different years, locations, cultivars and N supply). The experiments were carried out during 4 years under field conditions in different locations of Argentine and France. Five different commercial wheat cultivars were sown on early and late sowing dates; and two contrasting N availability and two fungicide treatments (protected and unprotected) were applied. Grain number was not affected by foliar diseases as their appeared after anthesis. Grain weight was strongly, poorly or not affected by foliar diseases and was not associated individually with both, the sink size and the source size. However, when the grain weight response due to fungicide application was plotted against the healthy area absorption per grain (HAA_G), a significant negative association (r² = 0.81; p < 0.0001) was found for the Argentine experiments. When the HAA_G was corrected by the grain weight potential (HAA_GW) all experiments conduced in Argentine and in France fit well to a common negative linear regression (r² = 0.74, p < 0.0001) for the relationship between grain weight variation and HAA_GW demonstrating that grain weight potential is an important feature to consider in diseases control programs. Foliar diseases forced the crop to use the accumulated reserved increasing the utilization rate of the water soluble carbohydrates (WSC_UR), depleting as a consequence the water soluble content at physiological maturity (WSC_PM) in all experiments. The association between WSC_UR and the healthy area absorption per grain corrected by grain weight of healthy crops (HAA_GW) suggest that foliar diseases in wheat cause source limitation, forcing to the crop to use the WSC reserve which could be insufficient to fill the grains previously formed.     

A quantitative approach to characterize sink–source relationships during grain filling in contrasting wheat genotypes

We present a simple generic framework to quantify source–sink relationships during grain filling, by using a determinate growth function which has a unique property, namely being able of explicitly describing the time for the end of a growth process. This model framework was applied to analyze these relationships in plants of six wheat (Triticum aestivum L.) genotypes grown in pots in climate-controlled greenhouses under two temperature regimes (day/night: 20/15 and 25/20 °C). The function accurately described the sigmoid pattern of grain growth (sink activity), as its modified form did for the reversed sigmoid shape of flag-leaf area (source capacity), during grain filling. The six genotypes differed significantly in grain number as well as in grain yield, ranging from 54 to 81 grains and from 2.67 to 4.52 g DM per culm, respectively, when grown at 20/15 °C. Biomass and grain yield were significantly reduced by a rise of 5 °C. Grain nitrogen contents raised from 2.1 to 2.6% as a consequence of less carbon accumulation resulting in lower grain weights at the high temperature. On average, a rise of 5 °C in temperature reduced the duration of grain growth by 12 days (>30%), and increased the growth rate from 1.32 to 1.67 mg grain⁻¹ d⁻¹ (20%). Genotypic differences in grain-filling duration were also larger than in rate of grain growth. The genetic variation in the flag-leaf area duration (a proxy for the capacity for intercepting radiation and photosynthesis) was positively associated with sink size. Model analysis showed that whether or not the timing for the cessation of grain filling and for the end of post-anthesis source activity was synchronized depended on temperature. The quantitative approach yielded parameters that characterize genotypic differences of post-anthesis source and sink capacity in responding to environmental variables.     

Carotenoid accumulation during grain development in durum wheat

Yellow pigment (YP) concentration is an important quality trait in durum wheat and is comprised primarily of carotenoids. The main objective of our study was to measure the accumulation of carotenoids during the grain fill period to improve our understanding of the physiological basis for differences among durum wheat cultivars. Thirteen genotypes with large variation in total YP concentration were studied. Spikes were sampled from replicated field plots in 2007 and 2008 at 14, 21, 28 and 35 days after heading (DAH). The remainder of each plot was harvested at grain maturity for analysis. trans-Lutein was the predominant carotenoid at maturity and was detected at 14 DAH in all genotypes. The rate and duration of lutein accumulation was variable among genotypes expressing high, intermediate and low YP. The accumulation of all carotenoids was lowest in genotypes expressing low YP, and suggests rate limitations early in the carotenoid biosynthetic pathway. The ratio of trans-zeaxanthin to trans-lutein was inversely correlated with total YP and suggests that the β,? branch of lycopene cyclization leading to α-carotene and thus lutein, synthesis may also be limiting in low-YP genotypes. These results provide insights into the regulation of the carotenoid biosynthetic pathway in durum wheat grain.     

Pre-anthesis high temperature acclimation alleviates the negative effects of post-anthesis heat stress on stem stored carbohydrates remobilization and grain starch accumulation in wheat

The potential role of pre-anthesis high temperature acclimation in alleviating the negative effects of post-anthesis heat stress on stem stored carbohydrate remobilization and grain starch accumulation in wheat was investigated. The treatments included no heat-stress (CC), heat stress at pre-anthesis only (HC), heat at post-anthesis only (CH), and heat stress at both stages (HH). Post-anthesis heat stress decreased grain starch content, reduced the content of fructans and depressed activities of related synthesis enzymes of sucrose:sucrose fructosyltransferase and fructan:fructan fructosyltransferase. Interestingly, HH plants had significantly higher grain yield than the CH plants. In addition, post-anthesis high temperature lowered grain starch content and increased percentages of volume, number and surface area of B-type starch granules in CH and HH than in CC treatment. However, HH plants had much higher starch content, and caused less modified B-type starch granule size indicators than the CH plants. Our results indicated that, compared with the non-acclimated plants, the pre-anthesis high temperature acclimation effectively enhanced carbohydrate remobilization from stems to grains, led to less changed starch content and starch granule size distribution in grains of wheat under post-anthesis heat stress.     

施氮量对高产小麦光合特性、干物质积累分配与产量的影响

为明确山东省高产麦区高产节肥高效的施氮量,以高产小麦品种济麦22和烟农1212为材料,在大田试验测墒补灌条件下,设置0(N0)、180(N1)、210(N2)、240 kg·hm~(-2)(N3)四个施氮量水平,研究施氮量对小麦旗叶光合特性、干物质积累分配和籽粒产量的影响。结果表明,适量施氮可显著提高灌浆中后期旗叶的叶绿素相对含量、净光合速率、蒸腾效率和气孔导度,增加拔节期至成熟期小麦的干物质积累量,提高干物质在籽粒中的分配量及其对籽粒产量的贡献率;与不施氮肥处理相比,施氮180～240 kg·hm~(-2)时,济麦22增产10.1%～28.2%,烟农1212增产27.1%～42.8%。在同一施氮处理下,开花期至成熟期,烟农1212的干物质积累量比济麦22高12.77%～19.92%;花后14～28 d,烟农1212的旗叶净光合速率比济麦22高8.61%～24.11%;灌浆期间,烟农1212花前营养器官贮藏干物质向籽粒的转运量比济麦22高6.10%～11.68%,花后光合同化物积累量比济麦22高12.63%～22.00%,籽粒产量增加12.73%～19.46%。说明适量施氮有利于灌浆中后期小麦旗叶保持较高的光合性能,促进花后光合同化物的积累和向籽粒的分配,发挥品种的高产潜力。当施氮量为210 kg·hm~(-2)时,济麦22和烟农1212的籽粒产量、氮肥农学效率和氮肥偏生产力均最高,是该试验条件下的最优施氮量。     

磷运筹和干旱胁迫对冬小麦农艺性状和品质性状的影响

为探究不同水磷运筹对冬小麦农艺性状和品质性状的影响,以冬小麦品种新冬20号和新冬23号为材料,研究了不同水分和施磷时期处理对冬小麦农艺性状、籽粒蛋白和淀粉含量、淀粉特性、植株和籽粒全磷含量的影响.结果表明:(1)品种、水分、施磷时期及其互作效应对小麦株高和千粒重均有显著影响;(2)品种、水分及三个试验因素的互作效应对籽粒淀粉和蛋白含量均有显著影响;籽粒淀粉含量以新冬20号干旱胁迫下一次施磷(DT+P1)处理的最高,新冬23号以干旱胁迫下三次施磷(DT+P3)处理最高;两个品种均以适水对照下三次施磷(WT+P3)处理的籽粒蛋白含量最高;(3)不同磷素运筹和干旱胁迫条件下,小麦淀粉粒的微观结构发生了变化,进而影响了淀粉粒的水解效率;(4)两个小麦品种的籽粒硬度均以DT+P3处理最低;(5)水分和施磷处理的互作效应对植株和籽粒磷含量有显著影响.     

减少灌水量对强筋小麦花后干物质和氮素积累、转运及产量的影响

为探究灌水量对强筋小麦花后干物质和氮素积累、转运及产量的影响,选用强筋小麦品种中麦998和中麦1062,在防雨棚池栽条件下,春季于拔节期和开花期灌水,每时期设600（W₆₀₀）、300（W₃₀₀）和0 m·hm^-2（W₀）3个灌水量处理,研究了减少灌水量对强筋小麦花后干物质含量、氮素积累和转运、籽粒产量、籽粒蛋白质含量和产量的影响。结果表明,随春季灌水量的减少,强筋小麦植株干物质积累量、氮素积累量、粒重比、叶重比、籽粒产量和蛋白质产量均表现为下降趋势,而蛋白质含量和水分利用效率呈上升趋势。两品种叶片氮素转运量和氮素转运效率以W₃₀₀处理下最高,且叶片氮素转运效率在W₃₀₀和W₆₀₀处理之间均无显著差异。中麦1062在W₀和W₃₀₀处理下水分利用效率无显著差异,中麦998在W₃₀₀和W₆₀₀处理下蛋白质含量无显著差异。综上可见,W₃₀₀处理既能有效提高强筋小麦花后干物质转运量,维持较高的产量和水分利用效率,同时又能提高氮素转运量和籽粒蛋白质含量,达到节水高产的目的。     

不同播期下优质稻桂华占、八桂香花后碳氮物质流转与籽粒生长相关性

以桂华占、八桂香为材料,不同播期调控下,研究不同播期下优质稻花后植株碳氮流转与籽粒生长及品质的相关性.结果表明:(1)花后茎鞘、叶片干物质运转速度和运转率都与籽粒起始灌浆势呈正相关.籽粒活跃灌浆期、持续灌浆时间与花后茎鞘、叶片干物质运转速度和运转率呈极显著正相关.(2)播种期推迟不利于茎鞘碳同化物向穗部流转,茎鞘碳同化物转运对籽粒的产量和淀粉产量的贡献率表现为淀粉＞可溶性糖＞蔗糖,茎鞘碳同化物对籽粒产量及淀粉产量的贡献率远高于叶片.可溶性糖转运对籽粒产量和淀粉产量贡献率表现为SD1＞SD2＞SD3;蔗糖、淀粉对籽粒的产量贡献率表现为SD1＞SD2＞SD3.茎叶可溶性糖积累量的减少与籽粒直链淀粉含量和积累量增加是同步的,并且,茎叶可溶性糖积累量快速递减期(花后3～12 d)与直链淀粉含量和积累量快速递增期(花后6～12d)同步.(3)播种期推迟减少茎鞘和叶片总氮的积累,籽粒氮收获指数降低,但是播种期的推迟却增加茎鞘和叶片器官蛋白氮积累,有利于籽粒蛋白质含量提高.