农五师葡萄钾素动态变化及调节措施研究

通过叶分析研究了不同葡萄品种叶柄全钾5～9月含量动态变化规律.结果表明:葡萄叶柄钾含量在生育期内整体呈波浪式下降趋势,前期下降迅速,中期平缓,进入浆果成熟期后又趋于下降；强势品种在整个生长季节内对钾的吸收大于弱势品种；早熟品种叶柄内钾含量变化趋势比晚熟品种提前.根据新疆农五师葡萄园区土壤有效钾含量分布现状,建议生产中应根据葡萄钾元素动态变化特点,不同团场应结合当地土壤有效钾含量相应补充.     

Short time effects of biological and inter-row subsoiling on yield of potatoes grown on a loamy sand,and on soil penetration resistance,root growth and nitrogen uptake

Soil compaction, especially subsoil compaction, in agricultural fields has increased due to widespread use of heavy machines and intensification of vehicular traffic. Subsoil compaction changes the relative distribution of roots between soil layers and may restrict root development to the upper part of the soil profile, limiting water and mineral availability. This study investigated the direct effects of inter-row subsoiling, biological subsoiling and a combination of these two methods on soil penetration resistance, root length density, nitrogen uptake and yield. In field experiments with potatoes in 2013 and 2014, inter-row subsoiling (subsoiler) and biological subsoiling (preceding crops) were studied as two potential methods to reduce soil penetration resistance. Inter-row subsoiling was carried out post planting and the preceding crops were established one year, or in one case two years, prior to planting. Soil resistance was determined with a penetrometer three weeks after the potatoes were planted and root length density was measured after soil core sampling 2 months after emergence. Nitrogen uptake was determined in haulm (at haulm killing) and tubers (at harvest). Inter-row subsoiling had the greatest effect on soil penetration resistance, whereas biological subsoiling showed no effects. Root length density (RDL) in the combined treatment was higher than in the separate inter-row and biological subsoiling treatments and the control, whereas for the separate inter-row and biological subsoiling treatments, RLD was higher than in the control. Nitrogen uptake increased with inter-row subsoiling and was significantly higher than in the biological subsoiling and control treatments. However, in these experiments with a good supply of nutrients and water, no yield differences between any treatments were observed.     

利用钾吸收基因表达评价葡萄叶面喷施钾肥效果和喷施浓度

【目的】叶面喷施钾肥可以快速、 高效地为葡萄补充钾营养,促进葡萄的高产和优质,已经被广泛应用于葡萄生产中。本实验通过对葡萄叶面喷施不同种类及浓度钾肥,测定葡萄叶片和果实等生理指标变化,以及钾吸收相关基因的表达变化,从生理和基因水平上评价这些钾肥的喷施效果,为葡萄生产中钾肥的施用提供一定指导。【方法】本实验以‘夏黑’葡萄为试材,选择两个葡萄生长关键时期盛花期和果实膨大期分别对葡萄叶片喷施0.2%、 0.5%和0.8%三种浓度的K2SO4、 K2CO3、 K2SO4·2MgSO4和KCl。然后对葡萄叶片和新梢的生长率,坐果率,叶绿素含量,单粒重,可溶性固形物等生理指标进行统计分析,并利用荧光定量PCR技术分析4个钾吸收相关基因VvHAK13、 VvKEA2、 VvSIRK和VvSORK的表达情况。【结果】叶面喷施4种钾肥后,葡萄叶片和新梢的生长率,坐果率,叶绿素含量,单粒重,可溶性固形物等各项生理指标均有不同程度的提升。钾肥种类不同,最适喷施浓度不同,同种钾肥在葡萄盛花期和果实膨大期的最适喷施浓度也有所不同,四种钾肥在果实膨大期的最适喷施浓度普遍高于盛花期。四个钾吸收相关基因在喷施不同种类及浓度钾肥后也表现出不同的表达模式,总体来讲VvKEA2、 VvSIRK 、 VvSORK的表达上调,而VvHAK13的表达下调。果实膨大期,需喷施较高浓度的钾肥,钾吸收相关基因才表现出较强烈的响应,而在盛花期则只需喷施较低浓度的钾肥。综合生理指标和基因表达两方面结果,得出4种钾肥效果依次为K2SO4·2MgSO4＞K2SO4＞K2CO3＞KCl。盛花期K2SO4和K2CO3的最适喷施浓度为0.5%,K2SO4·2MgSO4和KCl的最适喷施浓度为0.2%; 果实膨大期K2SO4、 K2SO4·2MgSO4和KCl的最适喷施浓度为0.5%,K2CO3的最适喷施浓度为0.8%。【结论】葡萄叶面喷施钾肥可以有效促进葡萄叶片和果实的生长发育,四种钾肥的效果依此为: K2SO4·2MgSO4＞K2SO4＞K2CO3＞KCl。盛花期K2SO4和K2CO3的最适喷施浓度为0.5%,K2SO4·2MgSO4和KCl的最适喷施浓度为0.2%; 果实膨大期K2SO4、 K2SO4·2MgSO4和KCl的最适喷施浓度为0.5%,K2CO3的最适喷施浓度为0.8%。适宜的喷施浓度可以有效提高钾吸收相关基因的表达,是其提高钾吸收利用的机理之一。     

固相萃取-高效液相色谱串联质谱法测定油菜薹中反式维生素K1含量

为准确测定反式维生素K1的含量，建立了基于固相萃取-高效液相色谱串联质谱的甘蓝型油菜（Brassica napus L.）菜薹反式维生素K1高灵敏检测技术。样品经正己烷提取、中性氧化铝柱净化后，用C30反相色谱柱，以甲醇 （含0.025%甲酸+2.5 mmol/L甲酸铵）为流动相，采用选择反应监测（selected reaction monitoring, SRM）模式进行定量分析，20 min内可实现顺反异构体色谱分离。方法学考察结果显示，反式维生素K1在范围内线性关系良好，相关系数为0.9985。该方法检出限为0.29 μg/kg，定量限为0.95 μg/kg。回收率为87.5%～117.6%，精密度（RSD）在0.72% ～9.59%之间。利用该方法对油菜薹和反式维生素K1含量高的3种蔬菜进行分析，发现油菜薹中反式维生素K1含量为340.08 μg/100g，高于小白菜（B. rapa spp. chinensis，260.93 μg/100g）、西兰花（B. oleracea var. Italic Planch， 167.65 μg/100g）和结球甘蓝（B. oleracea var. capitata，151.11 μg/100g）。本文建立的蔬菜中反式维生素K1准确定量分析方法操作简单、灵敏度高、结果准确。同时比较发现油菜薹是一种富含维生素K1的蔬菜。      

梨幼树到结果初期春施15N–尿素的利用及其在土壤的残留与损失

2014—2016年,以‘黄冠’梨为材料,采用15N示踪技术研究了从幼树期到结果初期梨树对春季施用氮素的吸收利用及土壤残留与损失情况。研究结果表明,幼树期(2014—2015年)梨树生长以中心干和粗根等树体骨干结构建立为主,生长量相对较小;进入结果初期(2016年)后树体生长表现为树体骨干结构建立为主,枝梢等营养器官生长与产量形成并存,生长量大幅增加。整个试验期间,树体贮藏器官的标记氮素吸收量较大,其中幼树期中心干吸收量最大,结果初期粗根吸收量最大。0~100 cm土层标记氮素残留量随土层深度和施用年限增加逐渐降低,其中,施用标记氮素后第1年(2014年),土壤标记氮素残留量较高,残留率达63.61%,梨幼树对标记氮素利用率仅为3.25%。随后两年(2015—2016年)土壤残留量较低,树体对标记氮素利用率仅为0.51%和0.80%。试验结束时,幼树期到结果初期梨树对标记氮素的累计利用率为4.57%,土壤标记氮素残留量为20.34%,损失率达75.07%。     

Soil physical changes and maize growth in a structurally fragile tropical soil due to mulching and duration between irrigation intervals

Under tropical meteorological conditions, the volume of soil explored by plant roots is crucial for crop growth as it allows increased water and nutrient use efficiency. We hypothesized that, under different irrigation intervals, leguminous mulch can extend the duration between irrigation events but maintain crop performance, because decreased evaporative fluxes also reduce constraints to root exploration imposed by mechanical stress. We evaluated the combined effects of leguminous mulch and irrigation intervals on soil physical properties to determine whether the growth and productivity of maize were modified in a structurally fragile tropical soil. The experiment involved the following treatments: 4‐day irrigation intervals with soil mulched (4C) or bare (4S), 6‐day irrigation intervals with soil mulched (6C) or bare (6S), 8‐day irrigation intervals with soil mulched (8C) or bare (8S) and 10‐day irrigation intervals with soil mulched (10C) or bare (10S). Mulch decreased soil penetration resistance and increased to 4 days the favourable time for root development in drying soil. Relative to bare soil, mulch with a 6‐day irrigation interval almost doubled nitrogen uptake post‐tasselling, which decreased nitrogen remobilization and increased the crop growth rate during this stage. These conditions had a positive effect on the transpiration rate and stomatal conductance as well as on the growth and yield of maize. A 6‐day irrigation interval with mulch compared to 4 days with bare soil resulted in similar conditions for root development, but greater uptake of nitrogen (102.73–78.70 kg/ha) and better yield (6.2–5.3 t/ha), which means greater efficiency in nitrogen and water use.     

Assessing the effectiveness of manure export plus intensive silage cropping for lowering the Olsen‐P status of P‐enriched grassland

A substantial proportion of farmed grassland soils in Northern Ireland (NI) are overly enriched with P and pose a risk to water quality. To address this problem, manure could be exported rather than recycled to P‐enriched land and the latter intensively cropped with grass silage to deplete soil P. To assess the efficacy of such a strategy, a P‐ and K‐enriched grassland site was intensively cropped over a 6‐yr period with fertilizer N alone supplied to support silage growth. By year 6, soil P had declined from index 5 to index 3, and it was estimated that two more years of this management may bring it into the target index 2 range. Soil K, however, declined rapidly from index 4 to index 1 in just 4 yr, with the result that grass production became limited by K deficiency. It was concluded that nonrecycling of manure to P‐enriched grassland under silage management is probably the most effective strategy for lowering soil P status, but care must be taken to prevent K deficiency occurring.     

Can arbuscular mycorrhizal fungi improve competitive ability of dill + common bean intercrops against weeds?

Competition for soil resources plays a key role in the crop yield of intercropping systems. There is a lack of knowledge on the main factors involved in competitive interactions between crops and weeds for nutrients uptake. Hence, the purpose of this work was to compare the effects of arbuscular mycorrhial fungi (Funneliformis mosseae) colonization in interspecific competitive relations and its effect on nutrients uptake and weed control in dill and common bean intercropping. Two field experiments were carried out with factorial arrangements based on randomized complete block design with three replications during 2013–2014. The factors were cropping systems including a) common bean (Phaseolus vulgaris L.) sole cropping (40 plants m⁻²), b) dill (Anethum graveolens L.) sole cropping at different densities (25, 50 and 75 plants m⁻²) and c) the additive intercropping of dill + common bean (25 + 40, 50 + 40 and 75 + 40 plants m⁻²). All these treatments were applied with (+AM) or without (-AM) arbuscular mycorrhiza colonization. In both cropping systems, inoculation with F. mosseae increased the P, K, Fe and Zn concentrations of dill plants by 40, 524, 57 and 1.0 μg kg⁻¹ DW, respectively. Intercropping increased Mn concentration in common bean (4.0 μg kg⁻¹ DW) and dill (3.0 μg kg⁻¹ DW), and also seed yields of both crops (198 g m⁻² and161 g m⁻², respectively). AM colonization improved seed yields of dill and common bean by 169 and 177 g m⁻² in 2013 and 2014, respectively. Moreover, AM application enhanced competitive ability of dill + common bean intercrops against weeds at different intercropping systems. Intercropping significantly changed weed density compared to sole cropping, as weed density was decreased in the dill + common bean intercropping. Diversity (H), Evenness (E) and richness of weed species of weeds for intercrops were higher than those for sole crops.     

双季稻最佳磷肥和钾肥用量与密度组合研究

【目的】为明确磷肥、钾肥用量和移栽密度对双季稻的施用效果,在田间试验条件下研究了不同磷肥用量、钾肥用量和移栽密度组合对江西双季稻产量、产量构成要素及磷肥和钾肥利用率的影响。【方法】本研究采用裂区试验设计研究了不同施磷量和移栽密度、不同施钾量和移栽密度对双季稻产量、磷肥和钾肥利用率的影响。磷肥用量和移栽密度试验中,设4个施磷水平(P2O5 0、60、90、120 kg/hm2,以P0、P60、P90和P120表示)和4种移栽密度(21×104、27×104、33×104、39×104 穴/hm2,以D21、D27、D33和D39表示)组合。钾肥用量和移栽密度试验中,设4个施钾水平(K2O 0、90、120、150 kg/hm2,以K0、K90、K120和K150表示),密度设置同磷肥试验。在水稻成熟期对产量以及产量构成要素进行测定,并分析其磷素和钾素的吸收量和利用率等指标。【结果】磷肥与密度试验中,同一施磷水平下,早稻产量和地上部磷素吸收量随着移栽密度的增加而增加,当施磷量超过60 kg/hm2时,产量和磷素吸收量不再随密度增加而显著增加,磷素吸收利用率(REP)、磷素农学效率(AEP)和磷素偏生产力(PFPP)逐步降低,以P60D39处理组合的产量和磷素吸收利用率最高,分别为5303.9 kg/hm2和24.4%,AEP为29.4 kg/kg; 晚稻则以施磷量在60 kg/hm2和33×104 穴/hm2密度组合的产量和磷素吸收利用率最高,分别为7246.9 kg/hm2和42.4%,AEP为36.2 kg/kg。钾肥与密度试验中,早稻的钾素吸收量随着施钾量的增加而增加,施钾量在120 kg/hm2和39×104 穴/hm2密度组合的处理产量和钾素吸收利用率(REK)最高,分别为6376.3 kg/hm2和67.2%,此时钾素农学效率(AEK)为15.6 kg/kg; 晚稻则以施钾量在90 kg/hm2和33×104 穴/hm2密度组合的处理产量和REK最佳,分别为7025.6 kg/hm2和74.0%,AEK为21.7 kg/kg。【结论】合理的磷肥、钾肥用量和移栽密度可以显著增加水稻单位面积有效穗数和养分累积量,进而增加水稻产量和肥料利用率,但过高的磷肥和钾肥施用会抑制产量的进一步增加。建议本研究区域的早稻采用施磷量在60 kg/hm2、施钾量120 kg/hm2和39×104穴/hm2的密度组合,而晚稻采用施磷量60 kg/hm2、施钾量90 kg/hm2和33×104 穴/hm2的密度组合。     

绵羊卵泡发育过程中关键信号通路研究进展

卵泡从原始卵泡发育为成熟卵泡，直至排卵、黄体发育等过程都受到精密的调控，产生大量的优势卵泡是绵羊产多羔及实现快速扩繁的关键因素。研究发现，相关信号通路和转录因子通过影响绵羊卵泡中卵母细胞、颗粒细胞的生长，进而调控卵泡的发育成熟，对这些信号通路进行深入了解，有助于探索卵泡发育的调控机制，早日实现绵羊高效繁育。Notch是卵泡发育过程中发挥重要作用的高度保守信号通路，PI3K/AKT/mTOR信号通路各成员都是广泛存在于细胞内的信号转导分子，在卵泡发育早期发挥了主要作用，还有间隙连接（gap junction，GJ）和跨带突触（transzonal projections，TZPs）等物理连接方式，在细胞间的交流通讯起到重要作用。作者详细介绍了Notch信号通路、PI3K/AKT/mTOR信号通路、间隙连接及跨带突触的结构功能在绵羊卵泡发育中的调控作用，为进一步探明绵羊卵泡发育的调控机制提供参考。