EFFECT OF NITROGEN AND SULFUR FERTILIZATION ON YIELD COMPONENTS,SEED AND OIL YIELDS OF CANOLA

Field experiments were conducted to evaluate the effects of nitrogen (N) and sulfur (S) levels and their methods of application on canola. Branches plant^?1, pods plant^?1 and biological yield significantly increased with increase in nitrogen level and no significant increase in seed pod^?1 and seed and oil yields occurred beyond 120 kg N ha^?1. However, thousand seed weight consistently decreased with increasing level of nitrogen. Pods plant^?1 and biological yield continually increased with increase in sulfur level. Alternatively, significant increase in branches plant^?1, seed pod^?1, seed weight, seed and oil yields was noted with increase in sulfur level up to 40 kg ha^?1. Applications of sulfur and nitrogen in split significantly decreased seed yield as compared to sole applications. It is concluded that sulfur and nitrogen application as sole at the rate of 40 and 120 kg ha^?1, respectively performed better than the rest of their levels and method of application.     

EFFECT OF NITROGEN SOURCES AND RATES ON YIELD AND QUALITY OF SILAGE CORN

The objective of this study was to determine the effect of nitrogen (N) application source and rate on silage corn (Zea mays L.). Urea, ammonium nitrate, and ammonium sulfate were compared at 50, 100, 150, and 200 kg N ha^?1. The application of ammonium sulfate produced the highest plant height, leaf area index (LAI), total yield, and stem, leaf, and ear dry matter, followed by ammonium nitrate and urea. However, nitrogen sources had no marked effects on the content of protein, ash, oil, soluble carbohydrates, acid detergent fiber (ADF) and neutral detergent fiber (NDF). As the rate of nitrogen increased plant height, LAI, total yield, and stem, leaf, tassel, and ear dry matters, and protein, ash and oil contents increased while soluble carbohydrates, ADF, and NDF contents decreased. Ammonium sulfate was the most effective N source on production and 200 kg N ha^?1 was the most effective N rate on corn yield and quality.     

STUDIES ON DIFFERENTIAL RESPONSE OF SPRING CANOLA CULTIVARS TO BORON TOXICITY

Although many states recommend boron (B) fertilizer for many field crops, information about B toxicity of canola is lacking. This experiment was carried out at Central Anatolia, Turkey from 2002 to 2003, to determine genotypic range in B efficiency of eight spring canola cultivars, to identify the B-inefficient cultivars and to identify specific responses. The cultivars were grown under B moderate deficiency (extractable B 0.56 mg kg^?1) and toxic B applied (15 kg B ha^?1) conditions. According to the results, seed yield varied significantly among the cultivars and B application decreased the seed yield by 31% on average. Also, toxic B application reduced protein and oil contents similar to seed yield, and increased leaf B concentration in all varieties. This study has shown that leaf B concentration has increased considerably when B is applied to Pactol and Star cultivars, but seed yield of +B and ?B has not shown significantly a change. It is possible to say that Star and Pactol—which have not been affected by the toxic B application—are genotypes that are tolerant to B toxicity and may be cultivated at B toxic lands.     

INTERACTIVE EFFECT OF SULFUR AND NITROGEN ON GROWTH AND YIELD ATTRIBUTES OF OILSEED CROPS (BRASSICA CAMPESTRIS L. AND ERUCA SATIVA MILL.) DIFFERING IN YIELD POTENTIAL

Field experiments were conducted to determine the interactive effect of sulfur (S) and nitrogen (N) on growth and yield attributes of oilseed crops [Brassica campestris L. (V₁) and Eruca sativa Mill. (V₂)] differing in yield potential. Two combinations of S and N (in kg ha^?1): 0S + 100N (?S+N;T₁) and 40S + 100N (+S+N;T₂) were used. Biomass accumulation, leaf area index (LAI), leaf area duration (LAD), and photosynthetic rate in the leaves were determined at various phenological stages. The results showed that the combined application of S and N (+S+N) significantly (P<0.05) improved the growth and yield attributes of both the genotypes compared with N applied alone (?S+N). Genetic variability was observed between the two genotypes in response to combined application of S and N (T₂). Genotype V₁ had higher biomass accumulation, photosynthetic rate, seed yield, oil yield, biological yield, and harvest index when compared with genotype V₂. Treatment T₂ resulted in 142, 95, 56, and 349% enhancement in biomass accumulation, leaf-area index (LAI), leaf-area duration (LAD) and photosynthetic rate, respectively in comparison with treatment T₁ in genotype V₁. Seed yield, oil yield, biological yield, and harvest index were improved by 141, 171, 85, and 30%, respectively, by treatment T₂ in comparison with T₁. In the case of genotype V₂, increase in biomass accumulation, LAI, LAD, and photosynthetic rate due to application of treatment T₂ were 156, 137, 125 and 467%, respectively, over the results of T₁. Seed yield, oil yield, biological yield and harvest index improved by 193, 251, 98, and 48%, respectively, with this treatment. On the basis of results obtained in this study, it can be concluded that sulfur must be included in the nutrient management package for optimum growth and yield attributes of oilseed crops. Furthermore, the yield potential of oilseed crops with low seed and oil yield can be improved using this treatment as achieved in our study in case of taramira (Eruca sativa Mill.), a genotype with low seed and oil yield.     

硫肥对棉花蕾铃脱落及产量的影响

本文就硫素与棉花蕾铃脱落和产量的关系进行了研究。试验结果表明,在传统施肥量330kg N/hm2,60kg P/hm2情况下,棉花蕾铃脱落率达70.3%;在增加氮磷肥施用量并补施硫酸钾情况下,棉花蕾铃脱落率为68.5%,说明硫酸钾有效降低了棉花的蕾铃脱落率。在传统施肥量基础上施用硫磺30.0kg/hm2对棉花的蕾铃脱落没有影响,但是增加了棉花单株结铃数、提高了产量。与不施硫相比,施硫使棉花单株结铃数增加14.7%,产量增加了15.7%。上述结果说明,在新疆高产棉田中使用单质硫肥能够进一步增加棉花产量。     

高产油量油菜新品种沪油039的选育

通过提高油菜品种的含油率,培育高产、高产油量的双低油菜新品种。以高含油率的油菜品种(系)栅048和沪油16为亲本,采用品种间复合杂交和辐射诱变相结合的方法,育成高产油量双低油菜新品种沪油039,2012年通过上海市农作物品种审定委员会审定。该品种产油量高,在上海市油菜区域试验中,二年平均产油量1407.63kg/hm2,比对照增产15.86%;在全国油菜区域试验中,产油量1198.65kg/hm2,比对照增产3.50%;沪油039抗病性与对照相仿,品质优良,适合在长江下游地区种植。     

SOURCES OF SULFUR FOR DRY MATTER,SEED YIELD,AND OIL CONCENTRATION OF CANOLA GROWN IN SULFUR DEFICIENT SOILS OF SOUTH-WESTERN AUSTRALIA

Leaching of sulfur (S) on sandy soils may limit the effectiveness of S fertilizers especially when applied at sowing. The effectiveness of S sources for canola (oil seed rape, Brassica napus L.) grown in sandy low S soils of south-western Australia is not known. This study was completed to determine the relative effectiveness of gypsum and a gypsum-based by-product from synthetic rutile processing called Canola Blue for canola grown in low S soils of the region. Canola Blue is a mixture of gypsum and elemental S, and is granulated so its effectiveness may vary from gypsum. We measured the effectiveness of the two S sources in the glasshouse for young seedling growth and for minimizing S leaching. In the four field experiments, the two S sources were evaluated for relative effects on canola seed yield and the concentration of oil in seed. Canola Blue applied at sowing was as effective as gypsum for canola growth in the glasshouse and when applied at 35 days after sowing (DAS) was as effective as gypsum for seed yield in the field. For the glasshouse study, Canola Blue when applied to the soil surface (topdressed) at 35 DAS was as effective as gypsum in achieving a rapid recovery of leaves from S deficiency symptoms and of shoot growth. Where S deficiency appears during the growing season, topdressing with Canola Blue appears to be as effective under the conditions of this experiment as was gypsum. However, the S in Canola Blue was less prone to leaching than that applied as gypsum.     

VARIABILITY OF GRAIN AND OIL YIELD IN SPRING SAFFLOWER AS AFFECTED BY NITROGEN APPLICATION

This research was carried out to determine the effects of rate and time of nitrogen (N) application on safflower in a calcareous soil. The nitrogen rates were 50, 75, 100, 125, and 150 kg ha^?1 and three split application methods were used. Experimental treatments were conducted as a factorial in a randomized complete block design (RCBD) with three replications. Duncan's Multiple Range Test (DMRT) indicated that the three split application of 100 kg ha^?1 of nitrogen in stages of sowing date, early stem elongation, and early flowering had higher grain yield (2627 kg ha^?1) than other treatments. This result was forecasted by results of increases in number of heads per square meter (heads m^?2), number of grains per head (grains/head), and thousand grain weight (TGW). The highest oil yield was 755 kg ha^?1 with the 100 kg ha^?1 nitrogen application and was 727 kg ha^?1 in treatment of three split application.     

CANOLA OIL PRODUCTION AND NUTRIENT UPTAKE AS AFFECTED BY PHOSPHATE SOLUBILIZING AND SULFUR OXIDIZING BACTERIA

Canola (Brassica napus L.) is a very important agricultural and industrial crop. Hence, the effects of chemical and biological treatments on canola oil production and nutrient uptake, under calcareous conditions, were evaluated in a field experiment. Phosphorus (P) fertilizer and sulfur (S)-oxidizing bacteria (Thiobacillus sp.) increased canola oil production by a maximum of 548 and 335 kg ha^?1, respectively. P-solubilizing bacteria (Bacillus sp.) and Thiobacillus sp. enhanced the uptake of different nutrients including nitrogen (N), P, potassium (K), zinc (Zn), and manganese (Mn). Monthly measurements of soil P indicated that soil P fluctuations can be managed using the applied treatments for proper P fertilization in canola production. The results indicated the important role of chemical and biological (Bacillus sp.) P sources and S-oxidizing bacteria for canola growth and oil production as they resulted in significant increase in canola oil production and nutrient uptake. This can be very beneficial for the farmers and industry.     

INFLUENCE OF TWENTY-THREE ANNUAL APPLICATIONS OF NITROGEN AND SULFUR FERTILIZERS,AND ONE-TIME LIMING ON DRY MATTER YIELD OF GRASS AND SOME SOIL PROPERTIES ON A DARK GRAY CHERNOZEM SOIL

Most soils in the Prairie Provinces of Canada are deficient in plant-available nitrogen (N), and many soils in the Parkland region also contain insufficient amounts of plant-available sulfur (S) for high crop production. A field experiment with perennial grass stand was conducted to determine the effects of long-term annual N (112 kg N ha^?1), S (11 kg S ha^?1) and potassium (K) (40 kg K ha^?1) fertilization, and one-time lime application on forage dry matter yield (DMY) and soil properties [pH, total organic carbon (TOC) and N (TON), and light fraction organic C (LFOC) and N (LFON)] on a Dark Gray Chernozem (Boralfic Boroll) loam at Canwood in north-central Saskatchewan, Canada. The experiment had surface-broadcast annual treatments of no fertilizer (Nil), N, S, NS, and NSK fertilizers from 1980 to 2002, and one-time lime application in 1992 to bring soil pH to about 7. Application of N or S alone had only a little effect on DMY compared to unfertilized Nil treatment, while application of both NS together substantially increased DMY, and forage yield was further increased when K was also applied (NSK). The DMY following one-time liming was greater in limed plots than in unlimed plots for at least 10 years. Decline of soil pH by fertilization mainly happened in the 0–10 cm depth with N only, and in the 0–5 cm layer with NS treatment, whereas these treatments tended to increase soil pH in layers below 10 cm. One-time surface application of granular lime increased soil pH, mainly in the 0–5 cm layer, and the effect was maintained for at least 9 years. Mass of TOC, TON, LFOC, and LFON in different soil layers increased with combined applications of N and S fertilizers (NS), but the effect was much more pronounced in the 0–7.5 cm soil layer, and also varied with organic fraction. Light organic fractions were more responsive to applied NS than total organic fractions. The findings suggest that application of N and S together was effective in sustaining high forage yield and increasing C and N sequestration in a soil deficient in both N and S.     

不同追施氮肥处理对冬小麦产量和品质的影响

以不同品质类型的2个小麦品种为试验材料,采用2因素随机区组设计,研究了不同品种和氮肥追施处理对产量和品质的影响.结果表明,在底肥量和追肥总量相同的条件下,适当增加开花期追施氮肥的比例有利于提高产量,处理间差异显著,品种间产量差异不显著;不同追肥处理对总蛋白含量影响不显著,但对清蛋白、醇溶蛋白和谷蛋白含量影响显著;追肥处...     

UPTAKE AND DISTRIBUTION OF SELENIUM,NITROGEN AND SULFUR IN THREE BARLEY CULTIVARS SUBJECTED TO SELENIUM APPLICATIONS

Selenium (Se) is an essential micronutrient for humans and animals, and also affects plant metabolism. In this study, the effects of increasing doses of Se application on the uptake of selenium (Se), nitrogen (N), and sulfur (S) content of three barley cultivars were investigated. The analysis indicated that the Se contents were highest in root tissues, intermediate in grain, and lowest in stem tissues in all cultivars. Total Se accumulations (whole plant) were highest in ‘Bülbül 89’ (0.171 mg kg^?1), intermediate in ‘Çetin 2000’ (0.153 mg kg^?1), and lowest in ‘Tarm 92’ cultivars (0.124 mg kg^?1). In all cultivars, the increase in grain Se content resulted in a decrease in the grain N content. While ‘Bülbül 89’ can be suggested for biofortification purposes, less Se accumulating ‘Tarm 92’ cultivar can be suggested as a fodder in Se contaminated or high Se containing areas.     

PLANT GROWTH PROMOTING RHIZOBACTERIA INCREASE GROWTH,YIELD AND NITROGEN FIXATION IN PHASEOLUS VULGARIS

Nitrogen (N) fixation by legume-Rhizobium symbiosis is important to agricultural productivity and is therefore of great economic interest. Growing evidence indicates that soil beneficial bacteria can positively affect symbiotic performance of rhizobia. The effect of co-inoculation with plant growth-promoting rhizobacteria (PGPR) and Rhizobium, on nodulation, nitrogen fixation, and yield of common bean (Phaseolus vulgaris L.) cultivars was investigated in two consecutive years under field conditions. The PGPR strains Pseudomonas fluorescens P-93 and Azospirillum lipoferum S-21 as well as two highly effective Rhizobium strains were used in this study. Common bean seeds of three cultivars were inoculated with Rhizobium singly or in a combination with PGPR to evaluate their effect on nodulation and nitrogen fixation. A significant variation of plant growth in response to inoculation with Rhizobium strains was observed. Treatment with PGPR significantly increased nodule number and dry weight, shoot dry weight, amount of nitrogen fixed as well as seed yield and protein content. Co-inoculation with Rhizobium and PGPR demonstrated a significant increase in the proportion of nitrogen derived from atmosphere. These results indicate that PGPR strains have potential to enhance the symbiotic potential of rhizobia.     

RELATIVE RESPONSE OF FORAGE AND SEED YIELD OF ALFALFA TO SULFUR,PHOSPHORUS, AND POTASSIUM FERTILIZATION

A field experiment was conducted from 2000 to 2007 on three-year old alfalfa stand near Star City in northeastern Saskatchewan to determine the influence of balanced application of sulfur (S), phosphorus (P), or potassium (K) fertilizers on forage dry matter yield (DMY) and seed yield, protein concentration (PC) in forage, concentration and uptake of total nitrogen (N), P, K, S, and boron (B) in forage and seed, and residual soil extractable P, exchangeable K and sulfate-S. Appropriate application of S, P, or K fertilizer nutrients was required to obtain optimum yield, PC, and nutrient concentration and uptake, especially when alfalfa was grown for hay production. Yield response to fertilization was much more frequent and much higher when alfalfa was managed as hay compared to when managed for seed production. The results suggest the importance of proper fertilization in increasing longevity of alfalfa stands. Under both hay and seed plots, there was only a small increase in residual sulfate-S from S fertilization, but significant accumulation of extractable P mainly in the 0–15 soil layer from P application. There was relatively higher concentration of exchangeable K in soil in the seed plots than in hay plots. In hay plots, concentrations of residual exchangeable K in soil were negatively related to DMY, especially in 2007. The findings suggest that when a soil is testing low (or deficient) in a nutrient and alfalfa growth is reduced, then alfalfa producers should consider applying fertilizers to supply adequate amounts of nutrients that are lacking in the soil, especially for optimum forage production. However, it is still difficult to predict accurately if a profitable alfalfa seed yield response to fertilization would occur, particularly when soils are testing marginal in some nutrient levels and yields are negatively affected by abnormal weather conditions (drought soil moisture conditions reducing plant growth, wet, cloudy and cool weather conditions decreasing pollination activity and late summer and/or early autumn frost damage to seed formation) that often occur in the growing season in this region.     

INFLUENCE OF SALINITY AND AMMONIUM: NITRATE RATIO ON GROWTH,PHOTOSYNTHESIS, FATTY ACID AND THE ACTIVITY OF ANTIOXIDATIVE ENZYMES IN CANOLA

The effects of sodium chloride (NaCl) salinity (0 and 200 mM) and ammonium (NH₄):nitrate (NO₃) ratios (100:0, 25:75, 50:50, and 75:25) on growth, photosynthesis, fatty acids and the activity of antioxidative enzymes were investigated in canola plants. Leaf area and fresh and dry weights of leaves were significantly reduced by the salinity. The reduction in vegetative characteristics varied in both salinized and unsalinized plants according to the NH₄:NO₃ ratios so that the lowest reduction was observed with the 50:50 (NH₄:NO₃) ratio. Increased NH₄ up to 50 percent (50:50) of total N, promotes the yield at both salinized and unsalinized plants. In both salinized and unsalinized plants, the increased NH₄ and NO₃ ratio in the nutrient solution reduced the photosynthetic (Pn) rate and stomatal conductance; however, the reduction in Pn rate was severely impaired at a higher ratio of NH₄ in the nutrient solution. In both salinized and unsalinized plants, the 75:25 ratio had the lowest potassium (K) and sodium (Na) content; however, the K/Na ratio was the highest in 50:50 ratio. An increase of NH₄ in the solution led to a significant increase in NH₄ content in both salinized and unsalinized plants. Salinity increased NH₄ content so that the salinized plant had nearly twice as high NH₄ content in the leaves. The activity of nitrate reductase was increased by increasing NH₄ from 0 to 50% and then reduced at a higher ratio of NH₄ in the solution. The activities of antioxidative enzymes increased in salinized plants regardless of the NH₄:NO₃ ratios. In salinized plants, the activities of superoxide dismutase and catalase enzymes were increased by 44.4 % and 97.5%, respectively. Within salinized and unsalinized treatments, the highest activities of all antioxidant were observed in 75:25 ratio, while they remained unchanged for all NH₄:NO₃ ratios. The increased NH₄ content in the solution increased the oil content and the maximum oil content in both salinized and unsalinized plant was obtained in both 50:50 and 75:25 ratios. The percentage of oleic acid was affected by both salinity and NH₄:NO₃ ratios. The ratios of NH₄:NO₃ had no effect on the protein content; however, salinity reduced the protein content by 20%.     

施用氮肥对温州蜜柑产量和品质的影响

红壤丘岗坡地桔园,在施用有机肥和磷钾肥的基础上,施用不同量的氮肥后,土壤ｐＨ值随着施氮量的增加而下降,呈线性负相关。不同施氮量对柑桔产量的影响具有极显著的差异。施氮后,土壤速效氮,磷,钾和叶片氮,磷,钾含量与产量呈显著或极显著线性相关。     

INFLUENCE OF ORGANIC AND MINERAL FERTILIZATION ON GERMINATION,LEAF NITROGEN,NITRATE ACCUMULATION AND YIELD OF VEGETABLE AMARANTH

The influence of manure and diammonium phosphate (DAP) mineral fertilizer on germination, leaf nitrogen content, nitrate accumulation and yield of vegetable amaranth (Amaranthus hypochondriacus) was investigated. Field trials were set up at the University of Nairobi Field Station at the Upper Kabete Campus during the long rains of March–May in 2007 and 2008. Trials were laid out as complete randomized block design with four fertilization treatments: 20, 40, and 60 kg nitrogen (N) ha^?1 supplied by DAP (18:46:0), 40 kg N ha^?1 supplied by cattle manure and an unfertilized control variant. The vegetables were harvested at three maturity stages at 6, 7, and 8 weeks after planting. Results indicated that there were significant differences between treatments in germination percentage, leaf nitrogen content, nitrate accumulation and vegetable yield. Plants that received manure had a higher germination percentage than those that received the same amount of N supplied by the chemical fertilizer DAP. The yields generally increased from week 6 to week 8. The highest yield was recorded in plots receiving 40 kg N ha^?1 from DAP at eight weeks after planting. Plots that were supplied with manure recorded the lowest yield when compared to the fertilizer treated plots at all rates. Leaf nitrogen content increased with increasing rate of N but only when N was supplied by DAP fertilizer. The leaf nitrogen content decreased with increasing age of the plants. The leaf nitrate content increased with increase in DAP application rate. Results indicate that manure application produced quality vegetables in terms of low nitrate levels, but leaf nitrogen and vegetable yields were low. DAP application effected higher yields, but the vegetables had high though acceptable nitrate levels.     

不同产量水平小麦的氮吸收利用差异

在土培盆栽条件下,以130份小麦为材料,测定了不同生育时期小麦的干物质量、氮素含量和籽粒产量,将供试品种按籽粒产量由低到高低依次分为I、II、III、IV、V、VI等6类型,研究了各类型氮素吸收利用的差异。结果表明：（1）供试品种籽粒产量差异较大（CV=3316%）,氮素籽粒生产效率随籽粒产量水平提高呈增加的趋势(r=02740**),提高氮素吸收量和籽粒氮素利用效率均可提高籽粒产量。（2）不同生育时期,不同籽粒产量水平类型小麦植株含氮量存在显著或极显著差异,但与籽粒产量的相关性不密切。抽穗期和成熟期植株吸氮量与籽粒产量极显著相关(r=02890**、09175**)。（3）不同生育时期氮素干物质生产效率在类型间的差异均达到显著水平,但其与籽粒产量相关性不显著。提高氮素收获指数和拔节期氮素干物质生产效率均可提高籽粒产量。（4）拔节期-成熟期不同类型间小麦干物质量随籽粒产量的增加而增加,成熟期表现尤为突出。籽粒产量水平较高的品种在拔节期后有较强干物质和籽粒产量形成能力。（5）氮素吸收量和氮素籽粒生产效率是影响籽粒产量的重要因素。     

低硼对甘蓝型黄籽油菜与黑籽油菜花期生理特性的影响

为探索甘蓝型黄籽油菜与黑籽油菜花期相关生理特性对低硼的响应差异,以2个具有相同遗传来源的黄籽(L1)和黑籽(L2)油菜基因型为材料,研究了田间条件下低硼处理对甘蓝型黄、黑籽油菜花期部分生理特性的影响。结果表明,低硼处理后黄籽油菜下部叶片中养分的再利用能力降低,而黑籽油菜仍有一定的养分可供利用;无论黄籽油菜还是黑籽油菜,低硼处理均使其花器官形态变小,干重下降,低硼对黄籽油菜雌雄蕊长度的影响大于黑籽;甘蓝型黄、黑籽油菜的花粉活力在低硼处理后明显降低,但黄籽油菜无活力花粉的比率明显高于黑籽油菜;低硼使甘蓝型油菜雄蕊和雌蕊中的可溶性糖、淀粉、游离脯氨酸以及可溶性蛋白质含量降低,黄籽油菜的降低幅度明显大于黑籽油菜。与相同遗传来源的黑籽油菜相比,甘蓝型黄籽油菜花期的相关生理特性更易受低硼的影响。     

土壤盐分对油菜氮素积累、运转及利用效率的影响

【目的】比较不同盐分含量条件下油菜产量、品质等性状差异,初步探讨盐分含量对油菜氮素积累、运转及利用效率的影响机制。 【方法】以杂交油菜宁杂 1818 和盐油杂 3 号为材料,在盐分含量为 2.7 g/kg (低盐) 和 4.4 g/kg (高盐) 的土壤上连续两年进行了田间试验。在初花期和成熟期取样,定期收集田间落叶,测定植株干物质积累量、氮素含量及籽粒品质,计算了不同盐分含量土壤条件下油菜氮素积累、运转及氮素籽粒生产效率。 【结果】高盐土壤上油菜的初花期和成熟期时间较低盐土壤的推迟 3～4 天,产量、总生物量和氮素积累总量显著降低,宁杂 1818 和盐油杂 3 号两年产量平均下降幅度分别为 23.6% 和 26.1%。与低盐土壤相比,高盐土壤上油菜籽粒含油量显著降低,蛋白质含量显著增加,宁杂 1818 和盐油杂 3 号两年油分含量平均下降幅度均为 4.6%,蛋白质含量平均增加幅度分别为 6.4% 和 9.4%。盐分含量对根系和叶片的氮素运转率影响较小。高盐土壤上油菜茎枝中的氮素运转率和氮素籽粒生产效率较低盐土壤的低,宁杂 1818 和盐油杂 3 号茎枝氮素运转率两年平均下降幅度均约为 14.2%,氮素籽粒生产效率平均下降幅度分别为 6.8% 和 9.3%。 【结论】高盐土壤上油菜的产量、总生物量、氮素积累总量以及籽粒含油量较低盐土壤显著降低,籽粒蛋白质含量显著增加。高盐土壤上油菜茎枝中氮素运转率的显著降低是导致油菜氮素籽粒生产效率降低的重要因素之一。