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1.
不同硼水平对双低油菜华双4号产量和品质的影响 总被引:5,自引:1,他引:4
以甘蓝型常规油菜品种中油821(双高品种)为对照,通过盆栽试验研究了不同硼水平对甘蓝型双低油菜华双4号籽粒产量和品质的影响。结果看出,两个油菜品种在缺硼条件下,施硼量从B 0.3 mg/kg增加到B 2.5 mg/kg时,单株角果数、每角粒数和籽粒产量显著增加,但增加到B 5.0 mg/kg时,每株角果数、每角粒数和籽粒产量显著降低,硼过量影响产量建成。在硼缺乏和硼过量条件下,华双4号的减产程度均高于中油821,表明双低优质油菜华双4号对缺硼和硼过量的反应较常规双高油菜中油821敏感。硼缺乏或过量时,两个品种籽粒含油量和油酸含量均表现降低的趋势,而蛋白质含量呈增加趋势。本试验的结果表明,合理施用硼肥对籽粒产量的影响大于对品质的影响,而高产优质品种更应注重硼肥的合理施用;我国栽培油菜的土壤有效硼的适宜浓度可以提高至B 1.0 mg/kg,但硼肥的安全施用应当控制在土壤有效硼含量为B 2.5 mg/kg以下。 相似文献
2.
两种不同含量的速溶硼肥,solubor和宽甸硼砂施用于油菜新品种中双9号、华双3号、中油杂2号和华杂3号的田间试验结果表明,施硼增加油菜苗期、越冬期、初花期干物重,增加株高、主花序长度、分枝数、单株角果数、粒数和粒重,而叶数、根茎粗和千粒重变化不明显;不同施硼菜籽产量平均增加5.7%~20.1%,喷施等量0.075%、0.10%、0.15%硼肥溶液,solubor优于宽甸硼砂,增产率分别为13.3%、18.3%、20.1%和5.7%、9.9%、15.2%;喷施等量有效硼时,两种硼肥的油菜单株粒重及菜籽产量均相近。表明两种硼肥对双低常规油菜与双低杂交油菜均有相似的显著增产效果,其增产率取决于有效硼施用量;在低硼土上,可满足双低油菜产量达2500~2800kg/hm2的硼素需求为每公顷喷施宽甸硼砂5.7kg或solubor硼肥2.85kg。 相似文献
3.
两种硼肥对油菜新品种生长发育及产量的影响 总被引:3,自引:0,他引:3
两种不同含量的速溶硼肥,solubor和宽甸硼砂施用于油菜新品种中双9号、华双3号、中油杂2号和华杂3号的田间试验结果表明,施硼增加油菜苗期、越冬期、初花期干物重,增加株高、主花序长度、分枝数、单株角果数、粒数和粒重,而叶数、根茎粗和千粒重变化不明显;不同施硼菜籽产量平均增加5.7%~20.1%,喷施等量0.075%、0.10%、0.15%硼肥溶液,solubor优于宽甸硼砂,增产率分别为13.3%、18.3%、20.1%和5.7%、9.9%、15.2%;喷施等量有效硼时,两种硼肥的油菜单株粒重及菜籽产量均相近。表明两种硼肥对双低常规油菜与双低杂交油菜均有相似的显著增产效果,其增产率取决于有效硼施用量;在低硼土上,可满足双低油菜产量达2500~2800kg/hm^2的硼素需求为每公顷喷施宽甸硼砂5.7kg或solubor硼肥2.85kg。 相似文献
4.
硼钼锌配合对甘蓝型油菜产量和品质的影响 总被引:9,自引:3,他引:9
通过水泥池小区试验,研究了B、Mo、Zn配合对甘蓝型油菜双低品种华双4号产量和品质的影响。结果表明,B、Mo、Zn配合产量最高,比对照增产20.7%;两种微量元素配合时,以BMo配合最佳,其产量与BMoZn配合差异不显著,BZn或MoZn配合仅比对照略有增产。BMoZn配合的每角粒数居各处理首位,每株角果数居第二,BMo配合的每株角果数和千粒重处于各处理首位。试验还表明,凡有配施硼的处理,即:BMo、BZn和BMoZn,有利于提高华双4号菜籽的含油量;凡配施锌的处理,即:MoZn、BZn和BMoZn,有利于提高华双4号菜籽的蛋白质含量。微量元素的各种配合均可降低华双4号菜籽的硫甙、芥酸含量;BZn配合具有最高的油酸含量,较低的棕榈酸、硬脂酸、亚油酸和亚麻酸含量,对改善华双4号菜籽的脂肪酸组分配比最为有利。对于双高(高硫甙、高芥酸)油菜,只考虑提高其产量及含油量,以BMo配合较好;而对优质的双低(低硫甙、低芥酸)油菜,其饼粕所含的蛋白质可以直接作为动物饲料,因此在提高其产量、含油量,改善油分品质的同时,还要兼顾其蛋白质含量,则以BMoZn配合效果最好。 相似文献
5.
为了研究施肥对油菜产量效果、经济效益和品质效益的影响,在豫南稻-油轮作地区,以双低品种和双高品种油菜为研究对象,农民习惯施肥为对照,研究了平衡施肥处理(NPKB),缺氮(-N)、缺磷(-P)、缺钾(-K)和缺硼(-B)对油菜产量效果、经济效益和品质效益的影响。结果表明,两个品种平衡施肥处理(NPKB)的产量和经济效益均最高,农民习惯施肥产量和经济效益显著低于平衡施肥处理(NPKB)。徳油8号产量降低29%,收益减少1 290元/hm~2,施肥效益降低25%;中油821产量降低32%,收益减少2 225元/hm~2,施肥经济效益降低51%。氮、磷、钾、硼任一元素缺乏,均显著降低油菜产量和经济效益,双低油菜徳油8号的产量分别降低了32%、14%、20%、17%,施肥经济效益分别减少了1 544、401、626、1 310元/hm~2;双高油菜中油821产量分别降低了44%、27%、16%、35%,施肥经济效益分别减少了2 122、1 151、166、2 471元/hm~2;两个品种平衡施肥处理(NPKB)的含油量显著高于其他处理,硫甙和芥酸含量显著低于其他处理。相同的施肥条件下,徳油8号产量比中油821高6.1%~43.4%,产值增加365~1 987元/hm~2,施肥经济效益提高8%~52%。说明在相同的施肥及栽培条件下,双低油菜比双高油菜高产高效,在豫南稻-油轮作区油菜种植中应选择双低油菜品种,并重视氮、磷、钾、硼的合理配施,以获得高产高效,提升油菜籽品质。 相似文献
6.
以华油杂9号和中油杂12号为供试油菜品种,在鄂东油菜主产区布置田间试验,试验设置3个硼肥用量梯度,硼砂用量分别为0、3和12 kg/hm2,研究硼肥用量对两种油菜产量、干物质积累量和硼素积累量的影响。结果表明,土壤严重缺硼(有效硼含量为0.12 mg/kg)条件下,施硼显著提高油菜产量和地上部各部位生物量,促进硼素吸收,且其影响随着生育进程的推移而加大。试验条件下最佳硼肥(B含量11%)用量为3 kg/hm2,相比不施硼处理,华油杂9号和中油杂12号分别增产26.8%和38.4%。硼用量为3 kg/hm2时,华油杂9号和中油杂12号的硼肥相对利用率分别为32.2%和19.4%,硼用量进一步增加,利用率显著降低。两个油菜品种相比结果表明,不同品种油菜对硼的吸收利用能力及敏感程度不同,华油杂9号具有较强的吸收、利用硼的能力,而中油杂12号对缺硼更加敏感,增产幅度更显著。研究结果说明,在当前生产条件下,油菜施硼增产效果显著,但目前油菜生产中不施硼和推荐施硼量过大的现象同时存在,应根据实际情况进行调整。 相似文献
7.
硼、钼营养对甘蓝型油菜产量和品质影响的研究 总被引:11,自引:3,他引:11
采用盆栽试验方法,研究施硼、钼和硼钼配施对两个油菜品种种子产量和品质的影响。结果表明,与对照相比,两品种3个处理(+B、+Mo、+B+Mo)的子粒产量均有显著的增产作用,中双6号(双低品种)增幅均达到显著水平,其中以+Mo处理增产效果最好;中油821(双高品种)+B和+B+Mo处理的增幅高于+Mo处理。单施硼肥(+B)和钼肥(+Mo),中双6号增产效果高于中油821;硼、钼配施(+B+Mo),中油821的增产效果好于中双6号。两个油菜品种含油量显著高于对照,其中+Mo处理增幅最大,中油821以+B处理增幅最大,但处理间差异均不显著;芥酸含量较对照明显下降,中双6号以+Mo和+B+Mo处理降低显著,分别下降了1.0和0.8个百分点,中油821下降幅度为1.4~6.4个百分点,以+B、+B+Mo处理下降较为显著;中双6号硫甙含量较对照下降1.5%~13.1%,其中+Mo和+B+Mo处理差异显著,中油821降幅为9.0%~29.1%,差异均达显著水平。本文的研究结果表示,硼、钼营养有利于油菜子粒产量的提高和品质的改善,但影响的程度在不同品种中存在差异。 相似文献
8.
红壤地区是我国重要的油菜种植区,研究直播冬油菜硼肥施用效果,为直播油菜科学施硼提供理论依据,对促进区域油菜产业发展有重要意义。2017—2018年在江西、湖南、湖北南部和广西北部油菜主产区布置7个硼肥大田试验,设置不施硼、施硼肥(含硼量100 g·kg~(–1))4.5 kg·hm~(–2)、9.0 kg·hm~(–2)、13.5 kg·hm~(–2)四个处理。结果表明,红壤地区土壤有效硼普遍含量低,直播油菜施硼增产效果显著,油菜籽平均产量和施硼经济效益在硼肥用量9.0kg·hm~(–2)时最高,与不施硼相比增产1 021 kg·hm~(–2),增产率达110.6%,分别较施用硼肥4.5 kg·hm~(–2)和13.5 kg·hm~(–2)增产16.6%和3.1%。施硼显著增加直播油菜收获密度、单株角果数和每角粒数,进而增加了油菜产量;同时硼肥的施用可显著提高油菜籽的含油率、油酸和亚油酸含量,与不施硼相比,施用硼肥9.0 kg·hm~(–2)处理各品质指标分别增加26.9%、45.9%和72.6%,相应增加产油量136.1%。在硼肥用量13.5 kg·hm~(–2)范围内,油菜地上部硼含量和硼累积量随着施硼量的增加而增加,但硼肥利用率呈现降低的趋势,硼肥用量为9.0 kg·hm~(–2)处理的硼肥当季利用率也仅为9.4%。综合结果显示,红壤地区直播油菜施硼增产增收效果显著,直播油菜生产中应重视硼肥的合理施用,区域硼肥的推荐用量为9.0 kg·hm~(–2)左右。 相似文献
9.
10.
氮、磷、钾、硼肥对甘蓝型油菜籽品质的影响 总被引:12,自引:2,他引:10
以多个正在大面积应用的甘蓝型油菜品种为研究对象,在长江流域冬油菜主产区的10个省(市)布置氮、磷、钾和硼肥田间肥效试验共284组,通过多点试验分别探讨当前生产条件下施用氮、磷、钾、硼肥对双低和双高甘蓝型油菜籽含油量、蛋白质、芥酸、硫甙的影响。结果表明,双低油菜籽平均含油量为41.66%,双高油菜含油量明显低于双低油菜,仅为38.92%。氮、磷、钾和硼肥施用对油菜籽的品质效应在不同试验点表现不尽相同,其总体趋势是:在磷、钾、硼肥基础上施用氮肥提高籽粒蛋白质含量而降低油分含量,且随氮肥用量的增加效果更明显,施氮对双高油菜油分及蛋白质含量的影响程度大于双低油菜;施磷、钾或硼肥有提高油菜籽含油量而降低蛋白质含量的趋势;施肥对油菜籽硫甙和芥酸含量有一定影响,但对品质影响不大。油菜籽含油量与收获指数、千粒重显著正相关,与蛋白质含量呈负相关。研究结果显示,在施氮的基础上配合施用磷、钾和硼肥能减少因施氮引起的油分损失。 相似文献
11.
A field experiment was conducted to study the effects of boron (B), molybdenum (Mo), zinc (Zn) and their interactions on seed yield and yield formation of rapeseed (Brassica napus L. var. Huashuang 4). Application of B fertilizer to a sandy soil increased the seed yield by 46.1% compared to the control and also created a considerably higher seed yield than the two treatments solely applying Mo and Zn fertilizers, which suggested that B was a main constraint for the seed yield of Huashuang 4 in this experiment. The effect of B fertilizer on the seed yield was attributed to an increase in the number of seeds per silique and siliques per plant. The combined application of B with Mo or Zn resulted in higher seed yield than the application of B, Mo or Zn alone, and the seed yield of the B+Mo+Zn treatment was the highest in all treatments, 68.1% above the control. Dry matter accumulation of seed followed a typical S-shaped curve and it was higher in plants supplied with B than in plants without B. A small but significant increase in the seed oil content and an improvement in the oil quality were also observed in all treatments compared with the control. These results suggested that optimal micronutrient application could provide both yield and quality advantages for rapeseed in poor soil. 相似文献
12.
Spring wheat (Triticum aestivum L.) is the major crop in southwestern Australia where 75% of the 18 million hectares comprise sandy duplex and deep sandy soils, including uniform yellow sandplain soils. Some of the sandplain soils in the lower rainfall (< 350 mm annual average) eastern region are naturally very acidic (soil pH, as measured in 1:5 soil:0.01 M calcium chloride, 3.7–4.5) in soil horizons explored by wheat roots so molybdenum (Mo) deficiency and aluminium (Al) toxicity adversely affects grain production of wheat. Liming is not an economic option to ameliorate Mo deficiency and Al toxicity in these soils because uneconomical large amounts are required. However, despite Al toxicity, applying Mo fertilizer produces profitable grain yield. The fertilizer also increases Mo concentration in grain, and if this grain was used to sow the next crop, it may reduce the amount of Mo fertilizer required by the subsequent crop. To test this hypothesis we grew wheat in an experiment on naturally acidic sandplain soil (pH 4.5) when either 0 or 160 g/ha fertilizer Mo was applied. The grain harvested at the end of the growing season had Mo concentrations of 0.07 mg/kg when no Mo was applied (low Mo seed) and 0.27 mg/kg when Mo was applied (high Mo seed). In two further field experiments on naturally acidic sandplain soil (pH 4.3 and 4.4) we sowed low and high Mo seed of the same size (36.4 ± 0.2 mg per seed) when 4 rates of Mo fertilizer (0, 35, 70, and 140 g/ha Mo) was applied to soil. Grain yield responses to the Mo fertilizer were 59% for low Mo seed and 55 g/ha fertilizer Mo was required to produce 90% of the maximum grain yield. Corresponding values for high Mo seed were 15% response and 15 g/ha fertilizer Mo. Rather than sowing wheat seed harvested from acidic soils to sow wheat crops on the acidic sandplain soils, we instead recommend seed harvested from alkaline soils with larger concentrations of Mo in the seed be used reducing the rate of fertilizer Mo required for that crop. The concentration of Mo in the youngest emerged leaf blades (YEB) that was related to 90% of the maximum grain yield (critical prognostic tissue test value for grain production) was about 0.08–0.09 mg/kg at tillering (Gs24) and at emergence of wheat heads (Gs59). 相似文献
13.
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. 相似文献
14.
施肥对红壤地区直播油菜生长、产量及养分吸收的影响 总被引:1,自引:0,他引:1
2009~2010年在江西典型红壤地区设置直播油菜氮磷钾硼肥田间试验,研究施肥对直播油菜生长发育、籽粒产量及N、P、K养分吸收与累积的影响。结果表明,红壤上直播油菜各施肥处理中以NPKB处理的籽粒产量和施肥效益最高,分别为1 722 kg/hm2和1 469元/hm2,而N、P、K、B任何一种养分缺乏均影响油菜的正常发育和籽粒产量。本试验条件下,红壤直播油菜的养分限制因子为P>B>N>K。施肥对直播油菜N、P、K养分的吸收和累积有明显影响,各养分间存在相互影响和制约的关系,NPKB处理最有利于养分吸收及累积,其氮、磷、钾肥吸收利用率分别为29.3%、59.5%和89.1%,均为最高。红壤地区直播油菜的高产应积极推广氮磷钾硼肥平衡配施措施,并实行氮、钾肥分次施用。 相似文献
15.
《Communications in Soil Science and Plant Analysis》2012,43(6-8):441-454
Abstract Boron (B) deficiency in crops is a major micronutrient disorder particularly in alkaline‐calcareous soils. A nutrient indexing of rainfed sorghum [Sorghum bicolor (L.) Merr; cv. Potohar 4–8] in the Potohar plateau of Pakistan revealed B deficiency in 50% of the 140 sampled fields in Jehlum district and 115 fields in Chakwal district. Hot water extractable (HWE) B in the associated soils, however, indicated more widespread B deficiency. The 255 sampled fields represented 21 soil series: 100 belonging to Alfisols, 63 to Entisols, 50 to Inceptisols, and 42 to Aridisols. Boron fertility varied in various soil types; the minimum HWE B (0.25 mg/kg) was noted in Calci Ustochrepts and the maximum (0.69 mg/kg) in Fleventic Ustochrepts. Boron fertilization of an alkaline calcareous Typic Ustorthents (HWE B, 0.11 mg/kg) increased grain yield up to 32% in improved sorghum (cv. PARC‐SS‐1) and 29% in local sorghum (cv. Potohar 4–8) over the respective control yields. Fertilizer requirements for near‐maximum (95%) grain yield was 1.2 mg B/kg for the improved and 0.6 mg B/kg for local cultivar; higher fertilizer requirement of improved sorghum may be attributed to its greater biomass production. Critical plant tissue B concentration in improved sorghum was 17 mg/kg in whole shoots and 25 mg/kg in most recently matured leaves. Contrary to its lesser fertilizer requirement, internal B requirement of local sorghum was greater, i.e., 18 mg/kg in whole shoots and 31 mg/kg in leaves. The three soil tests for B, hot water, hydrochloric acid (HC1), and mannitol were almost equally effective in evaluating soil B fertility. Soil test critical B levels (mg/ kg) for improved sorghum were: hot water, 0.48; HC1, 0.43; and mannitol, 0.37. Contrary to its internal B requirements, soil test critical B levels (mg/ kg) were slightly lower for local sorghum, i.e., hot water, 0.45; HC1, 0.40; and mannitol, 0.36. Thus, local sorghum appeared more efficient in utilizing soil B. As soil test critical levels as well as fertilizer requirement were greater for improved sorghum, a much widespread B deficiency is expected in this cultivar if grown on alkaline calcareous soils of the Potohar plateau. 相似文献
16.
浙中红壤油菜田供钾特性和钾肥用量研究 总被引:10,自引:1,他引:9
通过多点田间试验研究红壤性水田油菜供肥特性和钾肥施用量 .1 8个田间试验施钾油菜籽增产幅度为 7.5~ 90 .8kg/亩 ,无钾区相对产量变幅为 48.2~ 93.1 % .1mol/LNH4OAc提取的土壤速效钾含量与无钾区相对产量之间达极显著相关 ,相关系数为 0 .6 44 9 (n =1 8) .土壤速效钾的“临界水平”为80mg/kgK ,能满足 95 %相对产量的“足够水平值”为 1 5 0mg/kgK ,系统研究平衡施肥法中各参数的确定 ,并用平衡施肥法和施肥曲线确定油菜钾肥合理用量 ,两种方法具有可比性 相似文献
17.
Boron (B) deficiency frequently occurs on soils that are low in organic carbon (C) (<1.0% organic C), pH (soil pHCa <5.0), and clay content (<5% clay). Acid sands with these soil properties are common in south-western Australia (SWA). Moreover, hot calcium chloride (CaCl2) extractable B levels are commonly marginal in the acid sands of SWA. This study examined the effects of soluble and slow release soil-applied B fertilizer and foliar B sprays on crops most likely to respond to B fertilizer on these soils, canola (oil-seed rape, Brassica napus L.) and lupin (Lupinus angustifolius L.).At 25 sites over three years, canola was grown with (0.34 kg ha-1) or without B applied as borax [sodium tetraborate decahydrate (Na2B4O7·10H2O) 11% B], and this was followed by nine experiments with B rates [0, 0.55, 1.1 kg ha?1, applied as borax or calcium borate (ulexite, NaCaB5O6(OH)6·5(H2O), 13% B] and foliar sprays (0.1% solution of solubor, 23% B) in 2000–2001. A further five sites of B rates and sources experiments were carried out with lupin in 2000–2001. Finally, foliar B sprays (5% B w/v as a phenolic complex) at flowering were tested on seven sites in farmers’ canola crops for seed yield increases. No seed yield increases to soil-applied B were found while foliar B application at flowering increased canola seed yield in only one season across seven locations. By contrast, borax fertilizer drilled with the seed at sowing decreased canola seed yield in nine of 34-farm sites, and decreased lupin yield in two of five trials. Toxicity from drilled boron fertilizer decreased yield could be explained by decreases in plant density (by 22–40%) to values lower than required for optimum seed yield. Seedling emergence was decreased by borax applied at sowing but less so by calcium borate. Foliar B spray application never reduced seed yield due to toxicity effects.Boron fertilizer drilled with the seed increased the B concentration in plant dry matter at early to mid-flowering. Boron application decreased the oil concentration of grain of canola at four sites. The oil yield of canola was significantly decreased at seven sites.Notwithstanding the marginal B levels on acid sands of the SWA region, care needs to be taken on use of borax fertilizer as toxicity was induced in canola and lupin; with 0.34 to 1 kg B ha?1(3-10 kg borax ha?1) at sowing depressing seed yield, mostly by decreasing plant density. Rather than making general recommendation for B fertilizer application based on 0.01M CaCl2 soil extractable B, soil and plant analysis should be used to diagnose B deficiency and B fertilizer use limited to calcium borate or foliar borax rather than soil-applied borax on low B sands. 相似文献