河南省农业干旱脆弱性分析

为减轻旱灾损失,根据2005、2015年河南省统计与气象数据,采用10项指标和灰色关联分析法,以最劣值为参照系列分析了该省农业旱灾脆弱性。结果表明,豫西的济源、三门峡、洛阳,豫东的开封、漯河与豫北的鹤壁是河南省干旱脆弱性较强的区域,而豫东南的商丘、驻马店、信阳,豫北的新乡、豫西南的南阳则脆弱性较弱,其他地区居于两者之间;2005—2015年河南省干旱脆弱性呈明显的增加趋势。河南省是中国粮食生产核心区,首先要依靠科技创新,大力发展节水农业、循环农业;其次要重视水资源的节约与保护、加大农业投入以降低干旱的脆弱性,确保粮食安全。     

硫化细菌的分离及对碱土pH的影响

通过对样品的富集，利用选择培养进行化能自养硫化细菌的分离；以大庆本地碱土作为实验材料，通过硫化细菌及辅料的添加，利用pH计测定碱土pH值变化。分离获得了硫化细菌lh-1，利用该菌株改良碱土以添加0.27% 硫粉混合硫化细菌效果最为明显，经过两个半月的改良，pH可从10.53降到8.23。     

不同施氮水平下灌浆期高温对水稻贮藏蛋白积累及其合成代谢影响

【目的】 揭示不同施氮水平下灌浆结实期高温对稻米贮藏蛋白积累及其组分的影响,明确不同温氮处理组合下稻米贮藏蛋白合成积累过程与籽粒氮代谢关键酶及相关基因表达间关系。 【方法】 以2个主栽常规晚粳品种（秀水134和秀水09）为材料,利用盆栽土培试验,在水稻穗分化期设低氮（每盆0.5 g尿素）和高氮（每盆2.0 g尿素）2个氮水平,继而通过在水稻灌浆结实期的人工气候箱控温试验,设置高温（日均温度30℃,日最高温和最低温分别为34℃和26℃）和常温（日均温度23℃,日最高温和最低温分别为26℃和20℃）,构成低氮-常温（LN-NT）、低氮-高温（LN-HT）、高氮-常温（HN-NT）、高氮-高温（HN-HT）4个处理组合,并结合水稻籽粒灌浆不同时期取样,探讨氮素穗肥对水稻高温灌浆过程贮藏蛋白积累和主要蛋白组分含量影响及其与籽粒氮代谢关键酶及相关基因表达间关系。 【结果】 氮素穗肥和灌浆期高温均会导致稻米粗蛋白相对含量上升,但在高温处理下单位籽粒中粗蛋白的绝对量却呈降低趋势,以13 kD醇溶蛋白亚基组分在高温处理下的下降幅度最大,从而引起籽粒谷蛋白/醇溶蛋白质比值的上升,其原因主要是由于编码水稻13 kD醇溶蛋白合成基因（Pro13, Pro14和Pro17）在高温处理下的下调表达所致。与之相比,增施氮素穗肥（HN-NT和HN-HT）在引起稻米粗蛋白相对含量提升的同时,单位籽粒中的粗蛋白总量、谷蛋白和醇溶蛋白含量均显著增加,但对贮藏蛋白谷/醇比的影响不明显,且谷蛋白组分中的37 kD酸性亚基和22 kD碱性亚基在不同氮处理水平下的相对比例也基本保持稳定;氮素穗肥可增强灌浆籽粒中的谷氨酰胺合酶（GS）、谷草转氨酶（GOT）和谷丙转氨酶（GPT）活性,但HN-HT处理下的籽粒GS、GOT和GPT活性显著低于HN-NT处理,高温胁迫对水稻灌浆中后期籽粒器官中的氮转运代谢具有抑制作用。此外,在不同氮素水平下,灌浆期高温均可引起稻米整精米率的明显下降和垩白度的显著上升,但HN-HT处理的千粒重、结实率、产量水平、整精米率却高于LN-HT处理,且前者的稻米垩白度显著低于后者,氮素穗肥不足加剧了高温胁迫对千粒重、结实率、整精米率和垩白度等产量和品质性状的负面影响。 【结论】 氮素穗肥对水稻高温灌浆过程贮藏蛋白合成积累起重要调节作用,增施氮素穗肥虽然对水稻籽粒灌浆过程中的谷蛋白和醇溶蛋白质合成具有促进作用,并导致稻米贮藏蛋白相对量与绝对量增加,但对于高温灌浆下13kD醇溶蛋白亚基合成及其组分含量下降具有一定程度的缓解效应,有利于维持贮藏蛋白谷/醇比相对稳定。     

Root distribution patterns of peanut genotypes with different drought resistance levels under early‐season drought stress

Drought severely limits crop yield of peanut. Yet cultivars with enhanced root development enable the exploration of a greater volume of soil for water and nutrients, helping the plant survive. Root distribution patterns of three genotypes (ICGV 98305, ICGV 98324 and Tifton‐8) were compared when grown in well‐watered rhizoboxes and when grown in rhizoboxes where an early‐season drought was imposed using rain‐exclusion shelters. The treatments were arranged in a completely randomized design with three replications, and the experiment was conducted during two seasons at the Field Crop Research Station of Khon Kaen University, in Khon Kaen, Thailand. The root system of ICGV 98305, when grown under drought, had a significantly higher root length in the 30–110 cm deep soil layers and less roots in the 0–30 cm soil layers when under drought than when grown under well‐watered conditions. Roots of Tifton‐8 had the largest reductions in root length in upper soil layer and reduced in most soil layers. Tifton‐8 grown under drought was smaller than under well‐watered control for all root traits, showing negative response to drought. The peanut genotypes with high root traits in deeper soil layer under early‐season drought might contribute to drought avoidance mechanism.     

Straw mulching with fertilizer nitrogen: An approach for improving crop yield,soil nutrients and enzyme activities

Field experiments were conducted to study soil properties, soil enzymes activities, water use efficiency (WUE) and crop productivity after six years of soya bean straw mulching in the semi‐arid conditions of China. The experiment included four treatments: CK (Control), N (240 kg N ha^‐1), H (soya bean straw mulching at half rate 700 kg ha^‐1 with 240 kg N ha^‐1) and F (soya bean straw mulching at full rate 1,400 kg ha^‐1 with 240 kg N ha^‐1). Soil organic carbon (SOC), soil labile organic carbon (LOC), soil available N (AN), available P (AP) and enzyme activities were analysed after wheat harvesting in 2016 and 2017. Results show that straw amounts had positive effects on the soil fertility indices being higher for treatment F. The SOC, LOC, AN, AP and enzyme activities (i.e. saccharase, urease and alkaline phosphatase) were in the order of F > H > N > CK. High wheat grain yield and WUE were observed for F treatment. A total of six years mulching along with 240 kg ha^‐1 nitrogen fertilizer application is sufficient for wheat yield stability and improving soil properties except urease activities in the semi‐arid condition of China. However, the straw mulching amount should be further studied with minimum nitrogen fertilizer for an environment‐friendly and effective approach for improving the soil biological properties with adequate crop production on a sustainable basis in the semi‐arid region of China.     

Changes in soil and water quality at sediment–water interface of Penaeus vannamei culture pond at varying salinities

The health of the pond environment in shrimp farming is important for sustainable and profitable aquaculture, in which sediment–water interface is the most important influencing area. With this objective, the key parameters of water and sediment at the interface was studied in shrimp ponds with varying salinities and compared with the surface water and soil to understand the variations and the underlying causes. Total ammonia nitrogen and total alkalinity were higher in water at the interface as compared to surface water, whereas pH, nitrite, oxide forms of nitrogen (NO₃), phosphorus (PO₄) and oxidizing bacteria were observed to be lower. There was no significant difference with respect to macrominerals such as sodium, potassium, calcium and magnesium between water at the interface and surface. These changes are profoundly influenced by the uppermost 1.0‐cm thick sediment layer, where the maximum transition of nutrients takes place with the water column. The outcome of the study highlights the effectiveness of water sampling for metabolites at the interface, which reflects at an early stage any potential deterioration of pond environment, which will help the farmer to initiate timely mitigation measures.     

Substitution of chemical fertilizer by Chinese milk vetch improves the sustainability of yield and accumulation of soil organic carbon in a double-rice cropping system

The double-rice cropping system is a very important intensive cropping system for food security in China. There have been few studies of the sustainability of yield and accumulation of soil organic carbon(SOC) in the double-rice cropping system following a partial substitution of chemical fertilizer by Chinese milk vetch(Mv). We conducted a 10-year(2008–2017) field experiment in Nan County, South-Central China, to examine the double-rice productivity and SOC accumulation in a paddy soil in response to different fertilization levels and Mv application(22.5 Mg ha~(–1)). Fertilizer and Mv were applied both individually and in combination(sole chemical fertilizers, Mv plus 100, 80, 60, 40, and 0% of the recommended dose of chemical fertilizers, labeled as F100, MF100, MF80, MF60, MF40, and MF0, respectively). It was found that the grain yields of double-rice crop in treatments receiving Mv were reduced when the dose of chemical fertilizer was reduced, while the change in SOC stock displayed a double peak curve. The MF100 produced the highest double-rice yield and SOC stock, with the value higher by 13.5 and 26.8% than that in the F100. However, the grain yields increased in the MF80(by 8.4% compared to the F100), while the SOC stock only increased by 8.4%. Analogous to the change of grain yield, the sustainable yield index(SYI) of double rice were improved significantly in the MF100 and MF80 compared to the F100, while there was a slight increase in the MF60 and MF40. After a certain amount of Mv input(22.5 Mg ha~(–1)), the carbon sequestration rate was affected by the nutrient input due to the stimulation of microbial biomass. Compared with the MF0, the MF100 and MF40 resulted in a dramatically higher carbon sequestration rate(with the value higher by 71.6 and 70.1%),whereas the MF80 induced a lower carbon sequestration rate with the value lower by 70.1% compared to the MF0. Based on the above results we suggested that Mv could partially replace chemical fertilizers(e.g., 40–60%) to improve or maintain the productivity and sustainability of the double-rice cropping system in South-Central China.     

科尔沁草甸湿地土壤碳氮剖面分布及生长季动态特征

采用定位观测的试验方法,于2016年5-10月及2017年8月对科尔沁草甸湿地0~100 cm土层土壤有机碳、全氮剖面分布及生长季动态特征进行了实验分析,旨在为科尔沁草甸湿地保护提供科学指导并为干旱半干旱地区湿地土壤碳氮储量估算提供借鉴。结果表明:1)科尔沁草甸湿地土壤有机碳、全氮含量整体随土层深度下降,0~20 cm土层间下降显著,20 cm以下趋于相对稳定,范围分别为11.9~23.5 g·kg^-1和0.66~1.50 g·kg^-1。2)各土层土壤碳氮含量月间差异显著(全氮40~60 cm土层除外),变化幅度随土层深度先减小后增大;土壤碳氮密度(100 cm)生长季变化大于年际变化,有机碳密度全生长季呈上升趋势,范围为15.44~20.82 kg·m^-2,全氮密度生长初期明显下降,之后趋于相对稳定,范围为1.01~1.16 kg·m^-2。3)土壤有机碳含量与全氮含量呈极显著正相关;植被和水文是影响其分布、变化的关键因子。科尔沁草甸湿地生长季土壤有机碳、全氮密度变化较大,且表现为潜在的碳汇和氮源,但年际间碳汇潜力未充分发挥,本研究建议禁牧力度应加大并增加氮肥投入以提高科尔沁草甸湿地生态系统功能。     

蚯蚓养殖对幼龄胶园土壤养分及橡胶树根系生长的影响

本研究旨在探讨林下蚯蚓养殖对幼龄胶园土壤养分及橡胶树根系生长的影响。以牛粪作为原料，于 2017年4—11 月在 4 年生幼龄胶园铺设粪垄养殖蚯蚓，并测定土壤养分和根系生长情况。结果表明，与对照（CK）相比，铺设粪垄无蚯蚓养殖（WQ）和铺设粪垄蚯蚓养殖（Q）处理总体上可显著提高土壤硝态氮、速效磷、速效钾和土壤水分含量以及土壤 pH，而对土壤铵态氮、有机质、微生物活性及微生物群系数量无显著影响（p<0.05）；和 CK 相比，WQ和 Q 处理显著促进根的生长，并提高吸收根的比例（p<0.05）。综上所述，在幼龄胶园养殖蚯蚓短期内（半年）可提高土壤速效养分含量，促进根系生长。     

采后亚硒酸钠处理对菠菜和油麦菜贮藏品质的影响

以菠菜及油麦菜为试材，研究采后亚硒酸钠处理对其低温(4±1)℃贮藏品质的影响。结果表明，2.0 mg/L亚硒酸钠溶液浸泡20 min处理可抑制菠菜及油麦菜失重率的上升，延缓叶绿素含量的下降，保持可溶性固形物含量，减缓菠菜腐烂率及油麦菜褐变度的上升，有效延长其贮藏保鲜期。