Mechanical Harvesting Effects on Seed Yield Loss,Quality Traits and Profitability of Winter Oilseed Rape (Brassica napus L.)

China is one of the most important rapeseed producing countries in the world. Effective mechanical harvesting time for decreasing harvesting loss of winter oilseed rape has been becoming a critical factor. An elite cultivar Zhongshuang 11 （Brassica napus L.） was employed in two rounds of field experiments from 2009 to 2011. Seeds were sown with machine, three combine harvesting times namely combine harvesting A, B, and C （CHA, CHB, and CHC） were designed and manual harvesting （MH） as control was performed at maturity. The harvesting treatments were determined according to color of pod and seed in the field. Seed yield loss and quality in different treatments were evaluated. Results showed that both seed yields and harvesting losses in 2009-2010 were higher than that in 2010-2011, whereas seed oil contents in 2010-2011 were higher than that in 2009-2010. The highest yield appeared in CHB, which was significantly higher than that in MH. Furthermore, harvesting loss in CHB were 50% that in MH. Seed oil content and chlorophyll exhibited no obvious difference between CHB and MH. Economic profit analysis demonstrated that mechanical sowing/combine harvesting （MS/CH） showed an input/output ratio of 1：1.6, and it was 1：1.2 in mechanical sowing/manual harvesting （MS/MH）. Labor-cost accounted for more than 70% of the total cost in MS/MH, which led to low profitability to a great extent. Our results suggested that CHB was the optimum harvesting time for winter oilseed rape along the Yangtze River.

The Relationship of Color Formation with Related Enzymes and Protein Contents in the Seedcoat of Oilseed Rape (Brassica napus)

Three pairs of near-isogenic lines with different genetic backgrounds of yellow-seededand black-seeded rape (Brassica napus L.) were used as experiment materials to study therelationship of color formation in the seedcoat with enzyme activity and protein contentin it. The results showed that with similar genetic backgrounds, phenylalanine ammonia-lyase (PAL) and polyphenol oxidase(PPO) activities in the black-seeded lines were muchhigher than in their yellow-seeded counterparts and maximum PAL activity in the seedcoatoccurred comparatively late while no significant difference was present in glutaminesynthetase (GS) between the two types of rape. The plants were treated with red light,blue light, p-hydroxybenzoic acid (a PAL inhibitor), polyvinylpyridoxal (a PPO inhibitor),urea (a protein synthesis promoter) or chloramphenicol (CM, a plastid protein synthesisinhibitor) during seed development. It is speculated that PAL may be primarily responsiblefor coloration in the yellow seed; PPO may be the main factor contributing to thedarkness of the testa of the black genotypes; and nitrogen assimilation is, probably, notdirectly related to the difference in protein content observed between yellow- andblack-seeded genotypes, which may be induced mainly by PAL.

Biotechnology ofα-linolenic acid in oilseed rape(Brassica napus)using FAD2 and FAD3 from chia(Salvia hispanica)

α-Linolenic acid(ALA,18:3Δ9,12,15)is an essential fatty acid for humans since it is the precursor for the biosynthesis of omega-3 long-chain polyunsaturated fatty acids(LC-PUFA).Modern people generally suffer from deficiency of ALA because most staple food oils are low or lack ALA content.Biotechnological enrichment of ALA in staple oil crops is a promising strategy.Chia(Salvia hispanica)has the highest ALA content in its seed oil among known oil crops.In this study,the FAD2 and FAD3 genes from chia were engineered into a staple oil crop,oilseed rape(Brassica napus),via Agrobaterium tumefaciens-mediated transformation of their LP4-2A fusion gene construct driven by the seed-specific promoter P_(NapA).In seeds of T0,T1,and T2 lines,the average ALA contents were 20.86,23.54,and 24.92%,respectively,which were 2.21,2.68,and 3.03 folds of the non-transformed controls(9.42,8.78,and 8.22%),respectively.The highest seed ALA levels of T0,T1,and T2 plants were 38.41,35.98,and 39.19%respectively,which were 4.10-4.77 folds of the respective controls.FA-pathway enzyme genes(BnACCD,BnFATA,BnSAD,BnSCD,BnDGAT1,BnDGAT2,and BnDGAT3)and positive regulatory genes(BnWRI1,BnLEC1,BnL1L,BnLEC2,BnABI3,BnbZIP67,and BnMYB96)were all significantly up-regulated.In contrast,BnTT1,BnTT2,BnTT8,BnTT16,BnTTG1,and BnTTG2,encoding negative oil accumulation regulators but positive secondary metabolism regulators,were all significantly down-regulated.This means the foreign ShFAD2-ShFAD3 fusion gene,directly and indirectly,remodeled both positive and negative loci of the whole FA-related network in transgenic B.napus seeds.

SPAD chorophyll meter was suitable in nitrogen quick diagnosis,yield forecast and fertilization recommendation in rapeseed(Brassica napus L. )

Nitrogen （N） is one of the most important nutrients for oilseed rape （Brassica napus L . ） , but there is a lack of quick diagnosis and recommended fertilization. Three field experiments were con-ducted to seek the best diagnostic method and establish a fertilizer rate recommendation model. For ex-periment 1, six treatments as application N 0,90,180,240,300 and 400kg ha -1 were designed, and the general N nutrition diagnosis method as SPAD -502 chlorophyll meter, RQflex plus 10 nitrate reflectrom- eter and GreenSeeker - 505 spectrometer were used at eight leaf stage, tenth leaf stage and bolting stage of rape to determine the suitable nitrogen rapid diagnosis method and establish the model of yield forecast and N rate recommendation as topdressing. The experiment 2 was designed to validate the veracity of yield forecast model obtained from experiment 1. The experiment 3 was designed to test the accuracy of N rate recommendation model come from experiment 1. The results indicated that there is a preferable inter-relation between N application rates and rape yield for experiment 1 （ y = - 0. 0176x2 ＋ 11. 136x ＋797. 88 ,R2 =0. 9905 ＊ ＊ ） , which conform to the performance of yield variation with N application levels as shortage, appropriate and excessive rapeseed. For three diagnosis methods, nitrate reflectrometer could reflect rape N nutrition status to some extent, but which influenced by rapeseed physiological char-acteristics such as lower biomass at seedling stage and luxury absorption of N at bolting stage, and the re-liability and stability of diagnosis were inferior. Spectrometer is suitable for quick N nutrition diagnosis at bolting stage, but the stage of topdressing is too late to meet the demand of N support. SPAD meter could more suitable in quick N diagnosis of oilseed rapes since it could reflect rape N nutrition preferable, and it has some advantages such as the strong stability, easy measuring and lower cost in detection. By SPAD meter, model of yield forecast yforeCastyield =370. 517xSPAD value -13310.3 （x 〈42. 54） and recommended N rate yR_dedNrate =162.7-[（370.517xSPADTflliie- 13 10. 3 ）/10. 0617 - 76. 7398 ] （x〈42.54） were established. For experiment 2, the actual yield and forecast yield showed good correlation （y = 0. 5022 ＋2244. 3x, R2 =0. 7852 ＊ ） . For experiment 3 , the amount of topdressing N calculate from recommended N rate model were put forward, and the yield for different treatments had no significant difference. Total-ly ,SPAD chlorophyll meter could be used in quick N nutrition diagnosis, forecast yield and N recommen-dation of oilseed rape.

Nutrient deficiency limits population development,yield formation,and nutrient uptake of direct sown winter oilseed rape

Direct-sowing establishment method has great significance in improving winter oilseed rape（Brassica napus L.） production and guaranteeing edible oil security in China. However, nutrient responses on direct sown winter oilseed rape（DOR） performance and population development dynamic are still not well understood. Therefore, five on-farm experiments were conducted in the reaches of the Yangtze River（RYR） to determine the effects of nitrogen（N）, phosphorus（P）, and potassium（K） deficiencies on population density, dry matter production, nutrient uptake, seed yield, and yield components of DOR plants. Four fertilization treatments included the balanced NPK application treatment（NPK, 180 kg N, 39.3 kg P, 100 kg K, and 1.8 kg borax ha–1） and three nutrient deficiency treatments based on the NPK treatment, i.e., –N, –P, and –K. The results indicated that DOR population density declined gradually throughout the growing season, especially at over-wintering and pod-development stages. Nutrient deficiency decreased nutrient concentration in DOR plants, limited dry matter production and nutrient uptake, and thereby exacerbated density reduction during plants growth. The poor individual growth and reduced population density together decreased seed yield in the nutrient deficiency treatment. Averaged across all the experiments, seed yield reduced 61% by N deficiency, 38.3% by P deficiency, and 14.4% by K deficiency. The negative effects of nutrient deficiency on DOR performances followed the order of –N–P–K, and the effects were various among different nutrient deficiencies. Although N deficiency improved DOR emergence, but it seriously limited dry matter production and nutrient uptake, which in turn led to substantial plants death and therefore resulted in a very low harvested density. The P deficiency significantly reduced initial density, limited plants growth, and exacerbated density reduction. The K deficiency mainly decreased individual growth and yield, but did not affect density dynamic. Our results highlighted the importance of balanced NPK application in DOR production, suggesting that management strategy of these nutrients should be comprehensively considered with an aim to build an appropriate population structure with balanced plant density and individual growth.

Reaction of Oilseed Rape Cultivars to Sclerotinia Stem Rot in Field Environ- ments

Sclerotinia sclerotiorum (Lib.) de Bary, as an ubiquitous phytopathogenic Ascomycete fungus capable of infecting a wide range of plants, has increased in importance for oilseed rape production worldwide in recent years. The objective of this research was to determine the effectiveness of two measurements of disease rating in predicting the field reaction of cultivars to sclerotinia stem rot. One hundred and ten cultivars or lines of oilseed rape were repeatedly evaluated the disease severity index (DSI) and lesion length for their resistance to nine isolates of S. sclerotiorum in two field stations. There were greatly significant differences between two stations, among isolates, among population of cultivars for the disease severity index and lesion length, and also significant station×isolate interaction for lesion length and population×isolate interactions for DSI and lesion length, but interactions of station×isolate for DSI were not significant. Cultivars such as Pomorzanin and Lisek consistently had the lowest disease severity ratings in the field tests. However, most of cultivars were susceptible to sclerotinia stem rot in the field test. A positive correlation between the mean DSI and lesion length was found for both isolates (Sc23 and B1). The correlations ranged from 0.23 to 0.83 at various plots, with nine of the twelve correlations significant. The correlations for disease caused by different fungal isolates were statistically significant difference. These correlations ranged from -0.44 to 0.90, with nine of the thirty-two correlations significant. It indicated that resistance to some isolates was significantly correlated and selection of some varieties for resistance to one isolate appeared to improve resistance to other isolates.

Identification of QTLs for Branch Number in Oilseed Rape(Brassica napus L.)

Oilseed rape （Brassica napus L.） is one of the most important oil crops worldwide and provides about 50 percent of the vegetable oil supply in China （Yin et al., 2009）. The development of rapeseed varieties with higher yield is an effective measure to optimize balance between the supply and demand of edible vegetable oil. In oilseed rape, the number of silique per plant （SP） contributes most to the yield performance （Diepenbrock, 2000）. However, compared with the other two yield-component traits, seeds per silique （SS） and seed weight （SW）, SP is more sensitive to environmental changes （Li et al., 2007; Shi et al., 2009）. Therefore, it is difficult to perform the genetic improvement on SP trait directly in oilseed rape.

Effects of harvesting method and date on yield loss and seed quality of rapeseed

China is one of the major rapeseed production countries in the world,but harvesting mechanization was still backward,and high harvest loss was a key inhibiting factor for rapeseed production.To obtain optimum harvesting date for winter rape in the Yangtze River Valley of China,artificial simulated combine harvesting and artificial two-stage harvesting were adopted to find correlations between harvesting date,rape variety,seed oil content,protein content,grain moisture rate,rapeseed straw moisture content,rapeseed unthreshing rate,grain drop loss rate,thousand seeds weight(TSW),and harvesting economic coefficient(HEC).Analysis of variance showed that rapeseed oil content,protein content and TSW were correlated with rape variety;HEC was correlated with harvesting method and rape variety.Rape variety was the dominant factor of rapeseed oil content,protein content,TSW and HEC.Grain moisture rate,un-threshing rate,grain drop loss rate and straw moisture content were correlated with harvesting method and date.Harvesting date was the dominant factor of rapeseed moisture rate,un-threshing rate,grain drop loss rate and straw moisture rate.Single factor tests further proved that harvesting date had less impact on rapeseed oil content,protein content,TSW and HEC.It showed little correlation with rapeseed quality except grain moisture rate.The optimum harvesting date could be known by change in straw moisture content.The combined harvesting should be carried out during the grain moisture content of 15%-20%with TSW stabilized in the highest level.The twostage harvesting cutting should be carried out at the grain moisture content of 35%-40%.This research offered a reference to harvesting method and date for rape cultivated in the Yangtze River Valley.

鄂中地区油菜专用肥施用效果

为明确油菜(Brassica napus L.)专用肥对鄂中地区直播油菜产量的提升效果,于2019—2021年在湖北省沙洋县开展了连续2年的田间试验,设置了不施肥、常规施肥、宜施壮专用肥和洋丰专用肥4个施肥处理,考察各处理下成熟期油菜产量、地上部生物量、地上部养分含量、地上部养分积累量以及肥料偏生产力等的差异。结果表明,与不施肥对照相比,常规施肥和专用肥处理均能显著提高油菜子产量;与常规施肥相比,专用肥处理总养分投入减少了41.3%,而两者油菜子产量无明显差异。施肥显著增加了油菜地上部生物量,促进了油菜地上部对养分的吸收。油菜专用肥处理显著提高了肥料偏生产力,与常规施肥处理相比,宜施壮专用肥和洋丰专用肥处理平均肥料偏生产力在2019—2020年、2020—2021年分别提高了80.6%和68.2%。综上所述,油菜专用肥在保障油菜高产稳产的同时,提高了肥料利用率。

Assessing and characterizing oilseed rape freezing injury based on MODIS and MERIS data

The oilseed rape growing in the lower reaches of Yangtze River in China belongs to winter varieties and suffers the risk of freezing injury.In this research,a typical freezing injury event occurred in Anhui Province was taken as a case study,the freezing damage degree of oilseed rape was assessed,and its development characteristics based on the vegetation metrics derived from MODIS and MERIS data were investigated.The oilseed rape was mapped according to the decline of greenness from bud stage to full-bloom period,with the phenological phases identified adopting time-series analyses.NDVI was more sensitive to freezing injury compared with other commonly used vegetation indices(VIs)calculated using MODIS bands,e.g.,EVI,GNDVI and SAVI.The freezing damage degree employing the difference between post-freeze growth and the baseline level in adjacent damage-free growing seasons was determined.The remote sensing-derived damage levels were supported by their correlation with the cold accumulated temperatures at the county level.The performance of several remote sensing indicators of plant biophysical and biochemical parameters was also investigated,i.e.,the photosynthetic rate,canopy water status,canopy chlorophyll content,leaf area index(LAI)and the red edge position(REP),in response to the advance of the freezing damage.It was found that the photosynthetic rate indicator—Photochemical Reflectance Index(PRI)responded strongly to freezing stress.Freezing injury caused canopy water loss,which could be detected though the magnitude was not very large.MERIS-LAI showed a slow and lagging response to low temperature and restored rapidly in the recovery phase;additionally,REP and the indicator of canopy chlorophyll content—MERIS Terrestrial Chlorophyll Index(MTCI),did not appear to be influenced by freezing injury.It was concluded that the physiological functions,canopy structure,and organic content metrics showed a descending order of vulnerabilities to freezing injury.

定量代谢组学比较分析蕾薹期油菜不同部位营养差异

本研究采用定量核磁共振(nuclear magnetic resonance,NMR)与高效液相色谱-串联质谱(high performance liquid chromatography-tandem mass spectrometry,HPLC-MS/MS)技术分析大地95油菜蕾薹期不同部位(茎、叶、花苞)小分子营养物的组成差异。结果表明,通过1H-NMR与HPLC-MS/MS分析在大地95菜薹茎、叶、花苞中共定性定量得到53种小分子化合物,其中具有显著差异的物质有亮氨酸、异亮氨酸、缬氨酸、γ-氨基丁酸、丙氨酸、脯氨酸、苯丙氨酸、乳酸、柠檬酸、琥珀酰胺、β-D-葡萄糖、α-D-葡萄糖、蔗糖、果糖、胆碱、甜菜碱、延胡索酸、黄芩素、阿魏酸、山柰酚、芥子碱、反式肉桂酸、橙皮素。糖类物质在油菜茎部的含量最高;而胆碱、琥珀酰胺、多数氨基酸、有机酸以及酚酸类物质主要在花苞中积累,叶部的优势代谢物以黄岑素、芥子碱和柠檬酸为主。通过分析代谢通路发现这些差异代谢物主要涉及植物的柠檬酸盐循环,黄酮和黄酮醇的生物合成,苯丙氨酸代谢,氨酰基-tRNA生物合成,缬氨酸、亮氨酸和异亮氨酸的生物合成,糖酵解/糖异生,苯丙氨酸、酪氨酸和色氨酸的生物合成等。本研究结果可为全面评估蕾薹期油菜的营养价值提供数据参考,并为选育营养丰富的油菜品种提供科学依据。

Response of seed tocopherols in oilseed rape to nitrogen fertilizer sources and application rates

Tocopherols （Tocs） are vital scavengers of reactive oxygen species （ROS） and important seed oil quality indicators. Nitrogen （N） is one of the most important fertilizers in promoting biomass and grain yield in crop production. However, the effect of different sources and application rates of N on seed Toc contents in oilseed rape is poorly understood. In this study, pot trials were conducted to evaluate the effect of two sources of N fertilizer （urea and ammonium nitrate）. Each source was applied to five oilseed rape genotypes （Zheshuang 72, Jiu-Er-1358, Zheshuang 758, Shiralee, and Pakola） at three different application rates （0.41 g/pot （N1）, 0.81 g/pot （N2）, and 1.20 g/pot （N3））. Results indicated that urea increased α-, y-, and total Toc （T-Toc） more than did ammonium nitrate. N3 was proven as the most efficient application rate, which yielded high contents of y-Toc and T-Toc. Highly significant correlations were observed between Toc isomers, T-Toc, and α-/y-Toc ratio. These results clearly demonstrate that N sources and application rates significantly affect seed Toc contents in oilseed rape.

油菜的遗传转化及抗溴苯腈转基因油菜的获得

以油菜(Brassica napus L.)的下胚轴和子叶为转化受体,建立了油菜的高效转化系统。在此基础上,将抗除草剂溴苯腈基因(bxn基因)导入油菜,获得了抗溴苯腈转基因油菜。分子检测实验证明,转基因油菜中含有bxn基因。转基因油菜可抗高达10^(-3)mol/L的溴苯腈。

播期及种植密度对直播油菜农艺性状和产量品质的影响

本文于2010-2011年在四川雅安（盆周山区）、射洪（川中丘陵区）和邛崃（成都平原区）3个不同试验地点,研究了播种期、种植密度对直播油菜农艺性状和产量品质的影响。结果表明,直播油菜不同试验地点的农艺性状、产量和品质存在着一定的差异。播期是影响直播油菜株高、一次分枝数和产量的主要因素;种植密度则是影响直播油菜分枝部位的主要因素。株高、分枝部位和一次分枝数均随播期推迟而降低或减少;株高和一次分枝数则随种植密度增加而降低。直播油菜籽粒产量和油产量都随播期推迟而呈降低趋势,但油菜产量在不同种植密度下并无显著差异。播期、种植密度对直播油菜籽粒含油量、油酸含量和亚油酸含量均无显著性影响。基于上述结果,对于四川盆地不同生态区的直播油菜,在目前收获机械难以进入的深丘山区稻油两熟制农田,可适期早播（9月下旬）,种植密度以每公顷15~30万株为宜;在四川省有条件发展油菜机械化生产的浅丘平坝区,适宜播期（9月下旬至10月中旬）范围内,随播期推迟适当加大种植密度（每公顷30~60万株）,通过构建小个体大群体结构,从而实现油菜生产的轻简高效。

不同品种油菜子粒产量及氮效率差异研究

采用大田试验,以16个冬油菜品种为试验材料,系统研究了油菜子粒产量、氮素吸收量、氮素响应度和氮素利用效率的品种间差异,并初步探讨了氮素吸收效率和氮素利用效率对不同品种油菜氮效率差异的贡献。结果表明,无论施氮水平如何,不同品种的子粒产量、氮素利用效率和氮素响应度均有显著差异,而氮素吸收量只有在不施氮条件下品种间差异才达到显著水平。根据不施氮时的氮效率和氮素响应度将16个油菜品种分为4种不同类型:1)氮高效-高氮响应(NHE-NHR)型,包括Xy1、Xy16、Xy17、Xh19、Xh20和Xy21;2)氮低效-低氮响应(NLE-NLR)型,包括Xy6、Xy8和Xy9;3)氮高效-低氮响应(NHE-NLR)型,包括Xy7、Xy12、Xy14、Xy15和Xy24;4)氮低效-高氮响应(NLE-NHR)型,包括Xy11和Xy13。无论供氮水平如何,氮素利用效率的变异系数均大于氮素吸收效率的变异系数,说明氮素利用效率对油菜氮效率差异的贡献大于氮素吸收效率。但是,氮素吸收效率的变异系数表现为不施氮时大于施氮,氮素利用效率的变异系数则相反,说明在氮胁迫条件下,氮效率的差异中来源于氮素利用效率的变异减少,来源于氮素吸收效率的变异增加。

油菜终花后角果和叶片光合对籽粒产量和品质的影响

以‘秦优7号’油菜品种为材料,设置叶片和角果遮光及摘除叶片处理,通过田间试验测定分析终花后角果和叶片的光合特性及其对籽粒产量、含油量及脂肪酸组成的影响。结果显示:(1)终花后油菜角果遮光使籽粒的千粒重、产量、含油量分别显著降低54.7%、62.1%、44.2%,且籽粒中硫甙含量及脂肪酸中棕榈酸、硬脂酸含量显著升高,亚麻酸含量显著降低。(2)叶片遮光和摘除叶片分别显著降低角粒数11.7%、11.3%,降低籽粒千粒重22.5%、17.9%,单株产量分别降低35.3%、44.7%,使籽粒脂肪酸中亚油酸、亚麻酸等含量显著增加,但对籽粒含油量无显著影响。(3)终花后油菜绿色角果皮最大面积是绿叶面积的1.54倍,角果叶绿素a、b以及类胡萝卜素含量显著低于叶片,但角果的净光合速率、蒸腾速率显著高于叶片;且角果层的光辐射强度显著高于角果层下的叶片层;角果响应光辐射强度的光补偿点、光饱和点均显著高于叶片;即角果能够适应较高强度光辐射环境。研究发现,油菜结角期角果层接受大部分光辐射,角果的光合活性显著高于叶片,是主要的光合器官,角果光合状况对籽粒产量、含油量及脂肪酸组成有显著影响。

油菜基因BnWRI1的克隆及RNAi对种子含油量的影响

【目的】阐明油菜基因BnWRI1对其种子含油量的影响。【方法】采用RT-PCR技术从油菜中克隆到BnWRI1基因编码区内384bp的片段,将该片段正反向插入干扰载体pGΩ4ARi中,构建成RNAi表达载体pGΩ4ARi-WRI1,通过花粉管通道法将其转入油菜受体品种中双9号中,【结果】获得3棵转基因植株,PCR扩增和基因组Southern杂交证实外源片段已整合在受体油菜基因组中。利用半定量RT-PCR和改进的索氏提取法分别检测转基因T1代植株的BnWRI1基因表达量和种子含油量,结果表明:与非转基因对照相比,转基因植株的BnWRI1基因均受抑制,种子含油量有所降低。【结论】采用RNAi技术可使油菜内源基因BnWRI1沉默,表明油菜基因BnWRI1能有效调控种子含油量。

氮肥施用方式对油菜生长季氧化亚氮排放的影响

氮肥深施(条施、穴施)有利于提高肥料利用率和作物产量,但其对农田氧化亚氮排放的影响尚不明确。以不施氮肥为对照,研究了氮肥撒施、条施和穴施对水稻-油菜轮作系统油菜生长季氧化亚氮排放、氮肥利用率和产量的影响。结果表明:氮肥的施用改变了油菜生长期间N2O排放通量的季节变化规律,不施氮对照除在油菜移栽后第10dN2O排放通量较大外,其余时间排放均较为微弱。氮肥撒施、氮肥条施和氮肥穴施均在油菜移栽后第10d和第117d出现N2O排放小高峰,排放最大高峰出现在移栽后第100d。氮肥深施显著提高油菜生长季N2O总排放量、氮肥利用率和产量。与氮肥撒施相比,氮肥条施和氮肥穴施分别增加N2O总排放量37.2%和19.3%,提高氮肥利用率72.3%和59.3%,增产28.8%和25.8%,而单位产量N2O排放量与氮肥撒施无显著差异;氮肥条施的单位产量N2O排放量显著低于氮肥穴施。研究表明,在获得相同产量的前提下氮肥撒施并无减排N2O的优势,水稻-油菜轮作系统油菜生长过程中在氮肥深施时采用条施有利于N2O减排。

Al胁迫下油菜生物量Al积累及保护酶系统的响应

采用水培法，研究了油菜湘杂油二号（耐Al型）和浙双758（Al敏感型）的生物量、根尖Al含量及叶片保护酶活性、叶片MDA和Pro含量对Al胁迫的响应。结果表明，胁迫7d时，湘杂油二号根系、地上部和总生物量下降率（13％～36％、13％～36％、5％～17％）均小于浙双758（30％～53％、12％～20％、16％～28％）。胁迫14d生物量下降比胁迫7d时明显，根冠比也随Al^3＋浓度增加和时间延长而下降；同时，株高变化趋势与生物量变化趋势基本一致。胁迫7d下，湘杂油二号根尖A1含量在3．94～5．88μg·g^-1之间，浙双758在4．96—7．54μg·g^-1之间，胁迫14d时根尖Al积累进一步增加。Al^3＋对叶片SOD、CAT和POD具有激活效应，SOD上升幅度较为明显，胁迫7d和14d时，200μmol·L^-1。Al^3＋浓度下湘杂油二号分别增加2．50倍和2．03倍，浙双758分别增加2．02倍和1．83倍，Al^3＋对CAT和POD的诱导效应小于SOD；从时间差异看，SOD、CAT的绝对活性和增幅在胁迫14d时小于胁迫7d，POD相反。叶片MDA和脯氨酸含量均随Al^3＋浓度增加和时间延长而升高，MDA含量在湘杂油二号中低于浙双758，而脯氨酸含量是湘杂油二号高于浙双758。研究认为，湘杂油二号根尖排斥A1的能力较强，且叶片能够维持较高的保护酶活性和较高的脯氨酸含量，因而其耐Al性强于浙双758。

甘蓝型油菜叶色黄化突变体Bn.el1研究

对一个单倍体×二倍体来源的甘蓝型油菜叶色黄化突变体Bn.el1的光合色素质量浓度、农艺性状、叶色遗传和无机营养元素对叶色的影响进行了鉴定.结果表明:该叶色黄化突变体从苗期到蕾苔期表现新叶黄化,为总叶绿素缺乏型黄化突变体,其经济性状较野生型对照变差,叶色黄化性状受1对隐性核基因控制,叶色黄化性状的产生很可能与铁元素的吸收、转运或利用效率降低有关.