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本文报道了从108个橡胶农场采集的820个土壤样品和704个橡胶叶片样品硼含量的分析结果,讨论了我国植胶区各类土壤的供硼能力和各垦区胶树目前的硼素营养状况。分析结果表明,胶园土壤水溶态硼含量与成土母质有关,我国植胶区的土壤除部分由玄武岩发育的铁质砖红壤外,水溶态硼大都低于0.5ppm,对一般作物来说,属于低硼或缺硼土壤。橡胶树对低硼土壤看来有较强的适应能力。初步确定胶园土壤缺硼的临界值为0.1ppm水溶态硼。我国植胶区有一小部分土壤低于这个临界值。橡胶叶片硼含量与胶园土壤水溶态硼含量呈极显著的正相关(r=0.647>r_(0.01))。108个农场的橡胶叶片平均硼含量为40.6ppm。目前国内大多数胶树的硼素营养尚属正常,但在国内首次发现并证实生长在铁质砖红壤上的某些橡胶树存在硼中毒现象。 相似文献
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硼钼钴配合施用对大豆产量的影响 总被引:1,自引:0,他引:1
试验结果表明,硼钴、钼钴、硼钼二元素配合施用对大事均有增产效果,增产幅度为7.9-11.8%,而硼钼钴三元素配合施用效果更好,比对照增产21.7%。 相似文献
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以7个橡胶树品种1年生幼树为研究对象,研究橡胶幼树叶片微量元素(铁、锰、铜、锌、硼)含量变化规律,并分析橡胶树产量水平与微量元素含量的相关性。结果表明:不同品种橡胶幼树叶片中,锰含量表现出随月份而逐渐增加的趋势,但铁、铜、锌、硼含量变化规律表现不一致。叶片铁、锰、铜、锌、硼含量较高的品种分别为‘粤390-1’‘热研7-33-97’‘热研8-79’‘热垦525’和‘粤390-1’,不同品种橡胶树叶片微量元素含量顺序均为:锰铁硼锌铜。橡胶树产量水平与叶片锌含量达极显著正相关(r=0.87),与叶片硼含量达显著负相关(r=-0.80)。 相似文献
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《热带作物学报》2021,42(7)
通过分析研究幼龄橡胶树生长量与叶片养分的相关性,以实现幼龄橡胶树的养分诊断,为幼龄橡胶园的养分管理提供依据。在橡胶树定植后的第2~5年,每年9月采集叶片样品测定养分含量,同时测量橡胶树茎围与树高。在对测定结果进行相关性分析的基础上,利用多元逐步回归分析和聚类分析,研究橡胶树生长量与叶片养分的相互关系。结果表明:茎围与叶片的N、P、Mg、Fe、Cu具有显著的正相关关系,树高与叶片中的N、P、K、Ca、Fe、Cu、Zn具有显著的正相关关系;包含N和Ca的方程为橡胶树茎围的最优方程,包含N、P和Ca的方程为橡胶树树高的最优方程。通过聚类分析将橡胶树分成4种养分类型,不同类型的生长量及养分含量有明显差异,其中第4种类型茎围和树高相对较小,N、P含量也处于缺乏范围;K、Ca的含量较丰富,4种类型均处于正常范围以上;Mg的含量较低,4种类型均低于正常范围。幼龄橡胶树养分不均衡状况较显著,叶片中镁的含量整体较低,幼龄橡胶园的养分管理过程中,增加镁肥施用量的同时,还应调整不同养分间比例,以保证橡胶树的正常生长及养分间的平衡。 相似文献
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以分离自4种寄主的5株多主棒孢菌株接种橡胶树叶片,均得到成功侵染。并按时间顺序测定了来自不同寄主的多主棒孢侵染橡胶树叶片后,细胞防御系统相关的4种酶活性的变化。结果表明,接种来自不同寄主的多主棒孢后,对橡胶树叶片4种防御酶活性的影响不同。其中分离自橡胶树的HCCGD01和HCCHN42两个菌株侵染后,橡胶树叶片组织4种防御酶活性变化最大,均有明显增强;来自木薯的MaCCGD02侵染橡胶树叶片后,酶活性变化次之;分离自番木瓜的CpCCYN01和黄瓜的PaCCSD04多主棒孢菌株侵染后,除PAL外,β-1,3-葡聚糖酶、POD、PPO活性变化很小。 相似文献
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G. J. Molema A. Bouman B. R. Verwijs J. V. van den Berg J. J. Klooster 《Potato Research》2000,43(3):211-224
Summary In the chain of handling operations from harvesting to packaging inclusive, potatoes are exposed to many brief mechanical
forces (impacts) and to long-term pressure. Impact and pressure can lead to subcutaneous tissue discoloration causing qualitative
and quantitative losses. We investigated the characteristics of construction and utilization of representative Dutch ware
potato handling chains and found that the number and height of drops appeared to be too high, the use of cushioning materials
insufficient and the speed of the transporting parts too high and not in balance with each other. The contribution to the
total amount of subcutaneous tissue discoloration was 16% for the harvesting to bin filling phases inclusive, 22% for the
storage phase, 27% for the shovelling to truck loading phases inclusive and 35% for the truck unloading to packaging phases
inclusive. These contributions varied considerably within phases and within links. The results can be used to develop equipment,
upgrade present chains and design new, produce-frendly handling chains. 相似文献
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Cristina Chuck-Hernandez Esther Perez-Carrillo Sergio O.Serna-Saldivar 《Journal of Cereal Science》2009,50(1):131-137
The aim was to study the effect of steam-flaking of sorghum and maize on bioethanol production and the performance of their ground meals during liquefaction, saccharification and yeast fermentation. A bifactorial experiment with a level of confidence of P < 0.05 was designed to study differences between sorghum and maize and the effectiveness of steam-flaking. Grains were steam-flaked to increase starch bioavailability and disrupt the protein matrix that envelopes starch granules. The steam-flaked sorghum had significantly higher and faster starch hydrolysis compared to the regular kernel during liquefaction. This hydrolysate contained about 33% more reducing sugars compared to the untreated counterpart and similar amounts compared to both maize treatments. At the end of saccharification, the sorghum spent grains contained more residual starch compared to the maize counterparts. Steam-flaking significantly reduced residual starch especially in steam-flaked sorghum. The final glucose concentration in steam-flaked sorghum was similar to the concentration obtained in both maize mashes and 26.5% higher compared to the untreated sorghum. The yield of ethanol in steam-flaked sorghum was 44.2% higher compared to the untreated counterpart and similar to both maize treatments. Therefore, steam-flaking is a treatment useful to increase ethanol production especially in sorghum due to the higher starch bioavailability. 相似文献
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The recycling of sewage sludge or biosolids to grassland is strategically important in the European Union (EU) and its use is tightly regulated to control the risk of pathogen transfer to animals and the food chain. Sewage sludges not only contain valuable concentrations of beneficial nutrients, but also elevated concentrations of potentially toxic metals (PTM) compared with average background concentrations in the soil. The EC and UK regulations refer to six PTM, Cd, Pb, Cu, Zn, Ni and Hg, with provisional regulations for Cr, that have to be controlled to prevent detrimental effects on soil and animal health. Despite these regulations, there is still a danger that grazing animals may ingest elevated concentrations of PTM. Biosolids may adhere to herbage after the surface application of sewage sludge to grassland. The repeated surface application of sewage sludge to grassland can lead to elevated concentrations of PTM at the soil surface that may be ingested, together with soil and herbage, by grazing ruminants. This may lead to accumulation of Cd or Pb in liver or kidney. The risk to the human food chain is considered to be low, but the impact on the environment is still unknown. There is little information, for example, on the amount of soil and PTMs that may become incorporated into conserved grass. At present EU and UK legislation and voluntary codes of practice have been developed to protect animal from pathogens in sewage sludge and to minimize any potential risks from accumulation of PTM. The background and implementation of the legislation are examined in this review, and the source and mechanisms of accumulation of PTM by the grazing animal are evaluated. 相似文献
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根据广西沿海地区豇豆生长发育气候环境条件和病虫发生为害特点,提出通过创造有利于豇豆正常生长发育而不利于病虫发生为害的栽培环境条件,有效地改善豇豆生育状况,使植株健壮生长,增强自身抗逆性,减少、控制病虫滋生、蔓延和为害,控制豇豆产品农药残留不超标,实现豇豆健身栽培。 相似文献
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从坚持统筹协调以强化现代农业规划引领、坚持开放兼容以推进一二三产业融合、坚持绿色安全以加快农业供给侧改革、坚持改革创新以保障农业可持续发展、坚持合作共享以提升农业产业化经营水平5个方面阐述加快推进江门市的农业现代化建设,旨在将江门市建设成产出高效、产品安全、资源节约、环境友好的现代农业强市。 相似文献
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我国主要稻区褐飞虱对常用杀虫剂的抗性监测 总被引:11,自引:1,他引:10
为了明确目前褐飞虱对常用药剂的抗性现状,以便制定防治褐飞虱的科学用药策略,于2010-2011年间,在室内采用稻茎浸渍法监测了我国主要稻区19个褐飞虱种群对五种常用杀虫剂的抗性。结果表明,2010年全部监测种群对噻嗪酮均处于中等水平抗性(RR为11.3~23.4倍),2011年除广西桂林、江西上高2个褐飞虱种群为中等水平抗性(15.3~19.7倍)外,其他80%监测种群均已达高水平抗性(40.7~119.7倍),抗性明显上升;两年19个褐飞虱监测种群对吡虫啉均为高到极高水平抗性(82.3~1935.8倍),与2006-2009年相比,吡虫啉抗性有再次升高趋势;2010年褐飞虱对噻虫嗪的抗性为低到中等水平抗性(6.1~14.4倍),2011年除广西桂林种群为低水平抗性外,其他8个种群均为中到高水平抗性(12.8~62.3倍),较前一年明显上升;两年18个监测种群对毒死蜱均处于敏感到低水平抗性阶段;对吡蚜酮的抗性2010年7个监测种群为敏感-低水平抗性(1.9~5.1倍),2011年全部褐飞虱监测种群均已达中等水平抗性(15.7~25.4倍),暗示随着吡蚜酮的大量广泛使用,褐飞虱对其抗性较高,需要引起生产上的密切关注。为科学治理水稻褐飞虱,应严格执行无交互抗性的杀虫剂间的合理轮用或混用。 相似文献
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【目的】明确黑龙江省水田稻稗(Echinochloa oryzicola Vasing)对丁草胺的抗药性水平以及对其他细胞分裂抑制剂的交互抗药性水平。【方法】采用琼脂法和整株盆栽法测定了黑龙江省14个地区53个田块的稻稗对丁草胺的抗药性以及对其他3种细胞分裂抑制剂丙草胺、苯噻酰草胺和莎稗磷的交互抗性。【结果】琼脂法检测出庆安03、东京城镇02等4个稻稗生物型对丁草胺产生了中等水平抗性,抗性指数为12.92~26.03,占供试稻稗生物型的7.55%;兴隆镇03、阿城04等4个稻稗生物型对丁草胺产生了低等水平抗性,抗性指数为6.63~8.86,占供试稻稗生物型的7.55%;庆安01、汤原01等5个稻稗生物型对丁草胺敏感性下降,抗性指数为3.18~4.84,占供试稻稗生物型的9.43%;其余阿城02、尚志02等40个稻稗生物型对丁草胺表现敏感,抗性指数均小于3,占供试稻稗生物型的75.47%。选取上述测定结果当中抗性最高的两个生物型,使用整株盆栽法进行对丁草胺的抗性水平验证。发现庆安03和东京城镇02同样产生了中等水平抗性,抗性指数分别为16.78和13.27;同时测定两个抗性生物型对丙草胺、苯噻酰草胺和莎稗磷3种细胞分裂抑制剂的交互抗性,结果显示,庆安03稻稗生物型对丁草胺和丙草胺产生了交互抗性;东京城镇02稻稗生物型对丁草胺、丙草胺和莎稗磷产生了交互抗性。【结论】黑龙江省部分地区稻稗对丁草胺产生了抗药性,且对丙草胺和莎稗磷产生了交互抗性。 相似文献
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大豆油脂脂肪酸含量与主要农艺性状的遗传相关及通径分析 总被引:3,自引:0,他引:3
选用2份吉林省主推的大豆品种,3份引自美国的低亚麻酸材料作为杂交亲本,2000年按Griffing方法2进行双列杂交,估算了5种油脂脂肪酸含量与主要农艺性状的遗传相关及对单株粒重、百粒重的通径系数.结果表明:表型相关系数与遗传相关系数非常接近.棕榈酸、硬脂酸、油酸、亚麻酸含量和百粒重的遗传相关均为正值,亚麻酸含量与百粒重呈极显著的正相关,而亚油酸含量与百粒重的遗传相关为负值,通过百粒重可以对亚麻酸和亚油酸进行间接选择.油酸、亚麻酸对单株粒重的直接效应与遗传相关的表现相一致.亚油酸对单株粒重的直接正效应主要被油酸、亚麻酸的间接负效应所掩盖,使得亚油酸的直接效应与遗传相关表现相反.棕榈酸、硬脂酸、亚油酸对百粒重的直接效应与遗传相关的表现一致.油酸、亚麻酸对百粒重的直接通径系数与遗传相关的表现不一致,主要是被亚油酸的正向效应所掩盖.因此可通过百粒重进行间接选择,以达到低亚麻酸育种目标,同时也可提高亚油酸含量. 相似文献
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为给陕西旱地及关中灌区小麦高效灌溉提供技术支撑,在陕西秦岭北麓的蓝田县进行了小麦不同生育时期喷灌小区试验和生产示范试验,研究了喷灌对小麦产量及品质的影响。结果表明,在越冬期和拔节期喷灌可显著提高小麦产量、效益和水分利用效率,产量、收入和水分利用效率相对于无灌溉处理的增加幅度分别为22.0%~95.7%、16.5%~83.6%和9.3%~82.7%。喷灌后籽粒容重、吸水率和最大拉伸阻力分别增加1.8%~2.6%、0.5%~1.4%和0.6%~1.9%,其他品质指标降低,磨粉品质和加工品质明显变差。其中籽粒蛋白质含量和硬度分别降低5.2%~8.1%和6.0%~9.4%,最大拉伸面积、沉降值、湿面筋含量和稳定时间分别降低5.2%~7.8%、13.1%~17.3%、3.7%~7.8%和31.3%~42.4%。 相似文献