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分析湖南省木薯产业的发展现状,发展木薯的可行性及湖南省木薯发展存在的问题,提出湖南省木薯产业的发展策略,为湖南省木薯产业发展提供决策参考。 相似文献
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泰国是世界木薯主产国之一,也是世界主要木薯产品出口国之一。本文以2004-2013年的数据为对象,分析了泰国木薯产业近年来的发展概况,以期为国内木薯产业发展提供一定资料支持和决策依据。 相似文献
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木薯害虫普查及其安全性评估 总被引:9,自引:1,他引:8
为适应中国木薯产业的可持续发展需要,于2008~2009年间对木薯害虫、害螨在中国华南地区的分布、危害进行普查,并对2种国家检疫性毁灭性害虫、害螨进行了风险评估和5种主要害虫、害螨对木薯产业及本地生态经济的影响进行了分析。结果表明,海南、广西、广东共查获木薯害虫、害螨36种,其中害虫33种,害螨3种,并在国内首次发现木薯单爪螨和螺旋粉虱危害木薯,朱砂叶螨、蔗根锯天牛、白蛴螬在国内木薯种植区大面积严重发生与危害;木薯单爪螨、螺旋粉虱对木薯均属于高度危险有害生物;目前,木薯害虫、害螨已成为中国热区木薯产业能否可持续发展的重要限制因子之一,对木薯产业及本地生态经济的潜在影响与威胁十分严重。 相似文献
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木薯作为一种经济作物,具有良好的综合利用价值,其加工利用途径非常广泛。根据我国近几年木薯加工的研究成果,对我国木薯加工业的发展现状进行了概述,指出了我国木薯加工在原料、加工技术、产业等方面存在的一些问题,并就此提出几点建议。 相似文献
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分别于2010和2011年对全国18和20个省(区)的130和141个大豆科技示范县进行抽样调查,收集当地大豆生产田的单产及其相关性状数据。在此基础上,按大豆栽培区划进行分区统计,并采用多元逐步回归方法判断不同地区影响产量的关键因素。结果表明,各地区大豆的播种期因耕作制度不同和气象条件多样而存在很大差异,变化幅度大小依次为南方>西北>东北>黄淮海;东北地区大豆种植密度最高,西北、黄淮海居中,南方最低。平均单产高低依次为西北>东北>黄淮海>南方。在农艺和产量性状中,株高以东北大豆为最高,其后依次为西北、黄淮海和南方;单株荚数与单株粒数2个性状的地域差异趋势一致,2010年均依次为南方>西北>黄淮海>东北,2011年均依次为西北>南方>黄淮海>东北;黄淮海地区大豆的百粒重最高,西北次之,东北及南方则相对偏低。多元逐步回归结果表明,在东北和南方地区,影响大豆产量的首要因素为单株粒数,而在西北及黄淮海地区则为单位面积株数。文中讨论了不同主产区提高大豆单产的主攻方向。 相似文献
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Variations in Concentration and Distribution of Health-Related Elements Affected by Environmental and Genotypic Differences in Rice Grains 总被引:1,自引:0,他引:1
REN Xue-liang LIU Qing-long Wu Dian-xing SHU Qing-yao 《水稻科学》2006,13(3):170-178
Malnutrition is one of the major problems inmost of the developing countries, especially amongwomen, infants and children. Biofortification is a verynew strategy to enhance the bioavailability ofmicronutrients in staple food by using advancedbreeding meth… 相似文献
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本试验以高淀粉品种晋薯2号、中淀粉品种内薯3号、低淀粉品种紫花白为材料,对不同生育时期叶片及叶柄的全氮、全磷、全钾量进行了测定分析.其结果:同一品种内,随生育时期的推移,叶片和叶柄的氮、磷、钾含量均逐渐下降;各品种氮、磷在叶片中的含量始终高于叶柄,而钾在叶片中的含量则始终低于叶柄;不同品种叶片和叶柄氮、磷、钾含量变化与品种的淀粉含量呈正相关。生育中后期相关更显著,而叶柄氮、磷、钾含量与品种淀扮含量达到了显著正相关.因此,生育中后期叶柄的氮、磷、钾的含量是衡量马铃薯品种淀粉含量高低的重要生理指标,可做为马铃薯高淀粉育种早期选择和品质预测的科学依据. 相似文献
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To explore the zinc stress response in eddo, plants were grown for 15 d in hydroponic solutions containing 1 (control), 200, and 1000 μM zinc, and the hydathode function and changes in the contents of various elements in these plants were investigated. Under 1000 μM zinc, the dry weights of leaf blades and roots are decreased by 17 and 42%, respectively. The zinc contents in leaf blades, petioles, corms, and roots increased with increasing zinc levels in the solution. The zinc content in roots was 6.57 mg g?1 dry weight, which was 2.8–4.3 times higher than in other plant parts under 1000 μM zinc. These results demonstrate that the severe root damage occurring under 1000 μM zinc is due to higher zinc content in the roots. Under zinc stress, the contents of iron and copper in roots increased, but the contents of magnesium and calcium in petioles, corms, and roots, iron in leaf blades and corms, and manganese in petioles and corms decreased. In the guttation fluid, the concentrations of zinc, magnesium, and potassium increased, while the iron concentration decreased under 1000 μM zinc. Thus, elemental changes occurred in the guttation fluid as well as in different plant parts in eddo. In the 200 and 1000 μM zinc treatments, the amount of zinc eliminated via guttation was 2.8 and 8.5 times higher, respectively, than in the control. The results indicate that guttation partly contributes to the excretion of excess zinc under zinc stress conditions. 相似文献
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Satoshi Hayashi Akihiko Kamoshita Junko Yamagishi Anuchart Kotchasatit Boonrat Jongdee 《Field Crops Research》2009
Large within-field variation in rice growth often causes production loss in broadcast-seeded (BC) rainfed lowland rice. The spatial variability of direct-seeded rainfed lowland rice was evaluated in 2004, 2005, and 2007 in on-station experiments at Ubon Ratchathani, northeast Thailand, in relation to soil water content and weed infestation, by adopting semivariogram and block kriging, including comparisons among BC with harrowing (BCH; no weeding), BC with no harrowing (BCNH; no weeding), and row-seeded (RS; interrow weeding once) fields. BCH and BCNH were also compared in 11 farmers’ fields in 2006 and 2007, to assess the effect of harrowing on rice growth and weed infestation. During most of the rice growing periods, flooded and non-flooded portions existed simultaneously in the fields, with different proportions among years and among seeding methods in the on-station experiment. BCH and BCNH rice had large within-field variation in seedling density, heading date, shoot dry matter, grain yield, harvest index, panicle density, and filled spikelet per panicle, as well as in weed infestation, measured by a quick visual estimation. Many of the measured variables (except mean soil water content in RS in 2007, seedling density in BCH in 2005 and 2007, shoot dry matter in BCH and BCNH in 2007, and panicle density in BCH in 2007) were spatially dependent (i.e., data from nearby locations were most similar) by geostatistical analysis. Analysis of correlations using the 420 data sets of BCH plots in 2005 and BCH, BCNH, and RS plots in 2007 revealed a positive correlation between soil water content and grain yield and negative correlations between weed infestation and soil water content and grain yield. Compared with BCH, in 2007 BCNH had much lower grain yield because of lower soil water content after establishment and more weed infestation. BCH had higher grain yield than BCNH in weedy fields in the farmers’ fields experiment. RS with interrow weeding resulted in a smaller coefficient of variation, smaller sill value, and higher grain yield than BCH, due to less weed infestation and a higher proportion of flooded water. These results indicated that reducing the spatial variability in rice growth requires careful field preparation, such as harrowing to level the soil surface and to reduce the uneven distribution of standing water and the variability in soil water content, combined with effective crop and weed management (i.e., harrowing and row-seeding). This is the first study that examined spatial variability in the growth of direct-seeded rice as a function of soil water content and weed infestation in a rainfed lowland environment. 相似文献
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为了解洛阳市小麦籽粒元素富集特征基于土壤元素含量的关系,对洛阳市土壤硒高背景区种植的小麦和土壤进行了系统采集,测定了土壤25项全量指标、6种元素的有效态指标、7种元素的形态指标及小麦籽粒12种微量元素含量,分析了土壤和小麦籽粒中有益元素和重金属元素的含量特征、富集规律以及小麦籽粒微量元素与土壤元素的相关性。结果表明,研究区土壤富集硒和钼,小麦籽粒中钼、锌、硒、铜的富集系数均大于15%,富硒小麦的比例为69.11%,籽粒镉、砷、铅、汞、铬含量均低于全国平均值。小麦籽粒中硒、钼、砷含量与土壤pH值均呈显著正相关,镉、铬、镍含量与土壤pH值均呈显著负相关,锗含量与土壤pH值呈正相关,铜、锌含量与土壤pH值呈负相关,汞、铅、氟含量与土壤pH值均无相关性。研究区小麦籽粒具有有益元素丰富、有害元素含量低的特征,因而该地区是富硒富钼同时锌铜丰富的特色小麦有利地区。 相似文献
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为全面科学了解我国水稻三大优势产区稻米品质现状及区域差异,采取网格化布局和分层随机抽样方法,于2016—2020年在全国17个水稻主产省的455个重点县抽取5 879份稻谷样品,研究分析了12项品质性状和优质率。结果显示,近5年我国稻米总体优质率为35.96%,粳稻优质率(54.02%)明显高于籼稻(27.30%),中晚稻优质率(41.43%)显著高于早稻(10.13%),年度间优质率有变化,2016年为26.86%,2017年为38.30%,2018年为38.61%,2019年为38.79%,2020年为33.33%;区域间优质率差异明显,东北平原为71.38%,显著高于东南沿海的30.83%和长江流域的25.78%。东北三省优质率最高(黑龙江、吉林、辽宁分别为69.65%、75.13%、76.87%),其次是华南两广(广东37.20%、广西31.92%)、江淮地区(江苏31.88%、安徽34.88%、河南33.57%)和云贵高原(贵州31.16%、云南24.76%),川渝盆地和湘赣平原优质率有待提升。总体而言,东北平原稻米品质各项指标表现较为适宜,长江流域和东南沿海整精米率低、垩白多,是限制稻米优质率提高的主要因素。整精米率优质达标率总体仅为54.82%,东北平原、长江流域和东南沿海三大优势产区分别为84.59%、47.74%、46.17%,因此,整精米率不仅是我国稻米品质地区差异的关键因子之一,也是今后南方水稻优质育种和栽培的重要攻关目标。 相似文献
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Watermelon yield loss due to Fusarium wilt is increasing in the U.S., due in part to the emergence of the virulent race 2 of Fusarium oxysporum f. sp. niveum, and to the shift in production to triploid cultivars, which generally have less host resistance than previously grown diploid cultivars. One potential management strategy is the use of soil-applied fungicides to reduce Fusarium wilt. The U.S. national program, interregional project 4 (IR-4) supported multistate trials of soil-applied chemicals to manage Fusarium wilt of watermelon. Greenhouse trials were conducted in Maryland, Indiana and Georgia to test the efficacy of 14 chemicals on Fusarium wilt. Based on the performance of these chemicals in the greenhouse, six in Maryland and Delaware and eight in Indiana were selected for subsequent field evaluations. These chemicals were applied once, as a drench at planting, in field trials in Maryland, Indiana, and Delaware in 2008. The fungicides prothioconazole, acibenzolar-S-methyl, and thiophanate-methyl resulted in the greatest reduction in Fusarium wilt, and caused no phytotoxicity. In Maryland and Indiana in 2009, these chemicals were applied through the drip irrigation line alone and in combination, at 0, 2 and 4 weeks after planting. The experiment was repeated in 2010 in Maryland. Prothioconazole alone and in combination with acibenzolar-S-methyl or/and thiophanate-methyl resulted in the greatest decrease in the area under the disease progress curve (AUDPC) of Fusarium wilt of watermelon in Maryland in 2009. The same trend was observed in 2010 in Maryland where three of the prothioconazole treatments ranked the lowest of all treatments and prothioconazole in combination with thiophanate-methyl had significantly lower Fusarium wilt AUDPC compared to the non-treated control. All chemical applications except for acibenzolar-S-methyl in combination with prothioconazole reduced Fusarium wilt AUDPC in Indiana in 2009. Prothioconazole alone and prothioconazole in combination with thiophanate-methyl ranked lowest in Fusarium wilt AUDPC, although not significantly lower than most other treatments. These studies are the first to demonstrate that the soil-applied fungicides prothioconazole and thiophanate-methyl may provide an additional field management option for Fusarium wilt of watermelon. 相似文献
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不同籼稻颖果发育及其结构与品质性状 总被引:5,自引:2,他引:5
比较了两个籼稻品种颖果的发育,籽粒的主要品质性状以及胚乳淀粉体的大小、形状、结构等特性。结果表明: 扬稻6号的主要品质性状优于湘早籼33;在开花后前期扬稻6号干物质积累速率较慢,但在后期较快,淀粉充实度较高; 淀粉胚乳细胞内存在两种淀粉体,即单粒淀粉体,直径2.4~8.0 μm,平均4.7 μm;复合淀粉体,即由多个单粒淀粉体结合而成,直径5.7~19.5 μm,平均9.7 μm。湘早籼33单粒淀粉体多数为椭圆形或圆球形,大小差异较大,排列疏松,变异系数较大;扬稻6号胚乳单粒淀粉体基本为晶体多面形,发育良好,大小较为一致,排列紧密,变异系数较小。胚乳背部淀粉体的发育和排列结构优于腹部和中部。胚乳垩白的出现是由于淀粉体发育不良、排列疏松所致,而淀粉体的充实又与灌浆物质的输入途径紧密相关。 相似文献