不同包膜肥用量对油菜碳氮代谢产物和产量的影响

为研究包膜肥在直播早熟油菜上的应用效果,采用田间小区试验,探究不同用量包膜肥对‘湘杂油1613’碳氮代谢和籽粒产量的影响。结果表明,施肥量相同条件下,施用包膜肥油菜碳氮代谢活跃,叶绿素含量(SPAD)升高,可溶性糖和游离氨基酸总量增加,含量差异不明显;单株有效分枝数和角果数明显增加,每角果粒数和千粒重小幅提高。施用包膜肥增产效果明显,包膜肥施肥量为1500 kg/hm~2时产量最高,达到2066.9 kg/hm~2。通过拟合建模,包膜肥用量为1611.0 kg/hm~2时,产量达到最高为2164.9 kg/hm~2;而普通肥的用量为1870.5 kg/hm~2时,最高产量为1904.8 kg/hm~2,包膜肥产量增加13.6%,同时用量减少13.9%。     

土壤微生物膜对风沙土固沙保水特性的影响

土壤微生物膜胞外聚合物具有较强的黏结性,为增强风沙土抗蚀性,提高风沙土保水性提供了新途径。鉴于此,该研究采用室内控制试验设置6个微生物菌剂施用水平(0、1、3、5、7和10 g/kg),以期阐明土壤微生物膜对风沙土特性的影响。研究结果表明:1)施用微生物菌剂可产生土壤微生物膜,并胶结风沙土颗粒。2)试验结束时(第49 d),与对照组相比,不同菌剂施用处理的土壤容重降低0.54%～8.88%,孔隙度提高0.39%～3.91%,含水率显著提高0.11%～0.25%(P0.05),大团聚体质量分数增加5.59%～25.01%,土壤pH值由7.16显著增加至8.32～9.23(P0.05)。3)土壤多糖含量对土壤特性的解释率为47%,是影响土壤特性的关键因素。土壤微生物膜能够有效改善风沙土特性,增强风沙土抗蚀性,提高风沙土保水性,但较高的微生物菌剂施用量会增加土壤pH值,造成土壤盐碱化,建议微生物菌剂施用水平为1～5 g/kg。研究成果有利于深入理解微生物膜固沙保水机制,并可为沙化土地防治新技术研发提供重要理论依据和科技支撑。     

有机化学平台课程的构建与思考

通过合理把握有机化学课程知识体系和教学层次,将知识体系模块化,内容层次多元化,同时把课程设计与各个专业培养目标有机融合,建设有机化学平台课程并进一步完善评价制度,从而实现平台课程服务人才培养的目标.     

Contrasting development of soil microbial community structure under no-tilled perennial and tilled cropping during early pedogenesis of a Mollisol

A range of agricultural practices influence soil microbial communities, such as tillage and organic C inputs, however such effects are largely unknown at the initial stage of soil formation. Using an eight-year field experiment established on exposed parent material (PM) of a Mollisol, our objectives were to: (1) to determine the effects of field management and soil depth on soil microbial community structure; (2) to elucidate shifts in microbial community structure in relation to PM, compared to an arable Mollisol (MO) without organic amendment; and (3) to identify the controlling factors of such changes in microbial community structure. The treatments included two no-tilled soils supporting perennial crops, and four tilled soils under the same cropping system, with or without chemical fertilization and crop residue amendment. Principal component (PC) analysis of phospholipid fatty acid (PLFA) profiles demonstrated that microbial community structures were affected by tillage and/or organic and inorganic inputs via PC1 and by land use and/or soil depth via PC2. All the field treatments were separated by PM into two groups via PC1, the tilled and the no-tilled soils, with the tilled soils more developed towards MO. The tilled soils were separated with respect to MO via PC1 associated with the differences in mineral fertilization and the quality of organic amendments, with the soils without organic amendment being more similar to MO. The separations via PC1 were principally driven by bacteria and associated with soil pH and soil C, N and P. The separations via PC2 were driven by fungi, actinomycetes and Gram (−) bacteria, and associated with soil bulk density. The separations via both PC1 and PC2 were associated with soil aggregate stability and exchangeable K, indicating the effects of weathering and soil aggregation. The results suggest that in spite of the importance of mineral fertilization and organic amendments, tillage and land-use type play a significant role in determining the nature of the development of associated soil microbial community structures at the initial stages of soil formation.     

The combined effects of cover crops and symbiotic microbes on phosphatase gene and organic phosphorus hydrolysis in subtropical orchard soils

P deficiency is a major obstacle for crop production in subtropical red soils in South China, and the hydrolysis of organic P (Po) is of great significance in these soils due to the immobilization of P by Fe and Al. Cover cropping in orchards and symbiotic microbial inoculation are considered to improve soil quality, including P status, however, their effects on the hydrolysis of Po is little known. In this study, five soil managements were established in a guava orchard in South China for two and a half years, including clean culture (CC), cover cropping with Paspalum natatu (PN), PN with arbuscular mycorrhizal fungal inoculation (PNA), cover cropping with Stylosanthes guianensis (SG), SG with rhizobial inoculation (SGR). Soil chemical, biochemical and microbial properties were analyzed. Results indicate that soil pH and SOM content tended to increase following cover cropping alone or with microbial inoculation. Po content was significantly elevated in PNA. Po fractionation revealed that cover cropping alone or with microbial inoculation significantly affected the contents of moderately labile Po (MLPo) and moderately resistant Po (FAPo). Enzyme assay indicated that cover cropping with microbial inoculation increased the activities of acidic phosphomonoesterase (ACP), neutral phosphomonoesterase (NP) and alkaline phosphomonoesterase (ALP), with ALP the most sensitive, although ACP activity dominated in red soils. Correlation analysis suggested a significantly positive relationship between ALP activity and MLPo or FAPo. PCR-DGGE profile of the alp-harboring bacterial community showed that cover cropping with S. guianensis and mycorrhizal inoculation to P. natatu promoted the bacterial diversity and/or species richness. For almost all the measured parameters, PN and SG were comparable, however, PNA was superior to SGR, indicating the stronger additive effect of arbuscular mycorrhizal fungus than that of rhizobia. Cat-PCA indicated that MLPo was the most influential factor on phosphomonoesterase. In general, this study suggests that, in subtropical orchards with red soil, cover cropping with microbial inoculation can improve the Po hydrolysis via the promoted alp-harboring bacterial community and then ALP activity. Our results also suggest that the combination of P. natatu and arbuscular mycorrhizal fungus is better than S. guianensis and rhizobia, which possesses practical significance for sustainable production in these orchards.     

探讨有机烟叶的生产和管理

概述了国内外有机烟叶的发展状况,并从品种筛选、基地选择、施肥、除草、病虫害防治、打顶、抹杈、调制、收购、包装、贮存和不适用烟叶处理方面探讨了有机烟叶的生产技术体系,从生产管理和质量管理2个方面探讨了有机烟叶的生产管理,并对有机烟叶的发展进行了展望。     

钾肥减量分期施用对莴笋产量和品质的效应研究

通过大田试验研究了紫色菜园土壤钾肥减量分期施用对莴笋产量和品质的影响。结果表明：两个试验点钾肥减量10%~30%分期施用对莴笋产量有提高作用，各处理以K2（钾肥减量10%分期等量追施）效应最好，增产最大（4.2%和4.5%）、施肥利润最高（84923元/hm²和72075元/hm²）。两个试验点莴笋叶维生素C含量均呈下降趋势，K2处理较常规施肥(CK)处理均显著降低莴笋叶维生素C含量（8.0%和8.7%）；而莴笋茎维生素C含量变化规律不一致。钾肥减量分期施用降低两个试验点莴笋叶和茎硝酸盐含量，以K4处理（钾肥减量30%分期等量追施）降低作用最大；从莴笋叶和茎糖组分的均衡性看，以K3处理最好。钾肥减量分期施用对两个试验点莴笋叶必需氨基酸含量有显著增加作用，改善叶氨基酸品质性状，但降低莴笋茎必需氨基酸含量和品质性状；莴笋氨基酸品质性状以K4处理为最优，其次是K2处理。综合考虑莴笋产量和品质，紫色菜园土壤以K2处理（钾肥减量10%分期等量追施）最优。     

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。     

不同类型肥料对甘薯产量和氮效率的影响

为了找到比较适合甘薯增产的肥料,采用田间小区试验的方法,在投入等量氮磷钾养分情况下,比较4种不同类型肥料(施可丰复合肥、土壤所包膜肥、金正大包膜肥、史丹利复合肥)的氮肥效率,以无氮处理、普通尿素、习惯施肥为对照。结果表明:施可丰复合肥对甘薯的增产效果明显,产量达到29940 kg/hm2,显著高于无氮处理、普通尿素处理(P0.05),与习惯施肥相比增产8.92%,另外,收获时氮肥利用率最高,pH值降低小,在甘薯吸氮量最高时,施可丰复合肥氮素释放最高,符合甘薯的氮肥吸收规律,在甘薯生产上是值得推荐的。     

4种种植体系的水肥利用状况和经济效益比较

为了筛选适宜曲周县后老营村农业生产的较优种植体系并设计更好的种植体系,采用随机抽样调查的方法,对该村主要作物的种植体系及其水肥资源利用状况和经济效益进行了详细调查。结果表明:棉花-西瓜套作体系的水肥资源利用率最高,小麦-西瓜-玉米间套作体系的经济效益最好,棉花-西瓜套作体系次之,二者差异不显著。未来可以基于这2种种植体系重新设计新的种植体系,从而在生态、经济、环境等方面取得较好的综合效益。