低温胁迫对不同产地降香黄檀幼苗生理特征影响

为探讨低温胁迫下降香黄檀的生理变化，筛选降香黄檀耐寒产地和向北引种栽培推广提供依据。通过来自8个不同产地的降香黄檀幼苗进行人工模拟先降温再复温处理，测定分析降香黄檀幼苗叶片的细胞膜透性、保护酶活性和激素等10个生理生化指标的变化规律，并通过方差分析、多重比较、主成分分析等方法筛选抗寒性能力强的产地降香黄檀。结果表明，8个产地降香黄檀叶片的REC、MDA含量和POD、SOD和CAT活性随着胁迫温度的降低而升高。低温胁迫下ABA显著>对照，GA₃、IAA和ZR减少。运用主成分分析和隶属函数法综合评价结果表明，8个不同产地降香黄檀抗寒能力大小依次为四川乐山、浙江温州、贵州罗甸、广东怀集、广东韶关、广西崇左、广东高要、海南尖峰。通过低温驯化，可以适当增强降香黄檀幼苗的耐寒能力。     

毕节地区干草调制研究

中国南方喀斯特地区干草调制受限于诸多自然因素,客观上阻碍了该类地区草食畜牧业的发展,本研究在喀斯特典型地区贵州毕节撒拉溪示范区选取扁穗雀麦(Bromus cartharticus)、高羊茅(Festuca elata)、鸭茅(Dactylis glomerata)、菊苣(Cichorium intybus)、紫花苜蓿(Medicago sativa)、白三叶(Trifolium repens)、红三叶(T.pratense)、多年生黑麦(Lolium perenne)8种牧草进行田间自然晾晒,记录各时间段牧草的重量、空气温度和湿度,并对历年该地区气候进行浅析,重点分析近3年来4、5、6、7月份的最高温和最低温变化,通过对该地区8种主要栽培牧草的干燥过程和水分散失规律的研究,结合多年降水和气温变化规律,分析该地区调制干草的可行性,以期为喀斯特地区畜牧业的发展提供一些数据支撑。结果表明,1)4种禾本科牧草的干燥速率明显优于3种豆科牧草和菊苣;2)从外观评价角度出发,白三叶、红三叶、菊苣均不适合进行牧草晾晒;3)在选择的影响指标中,对干草晾晒的影响程度表现为晾晒时间空气湿度温度;4)综合分析各气候因子,在贵州毕节地区7月份最适合进行干草调制;5)干草调制具备可观的经济收益。     

减氮配施生物菌剂对土壤肥力及烟叶产质量影响

为探讨生物菌剂在烤烟上的施用效果,研究了减氮配施生物菌剂对土壤肥力及烟叶产质量影响。结果表明:与常规施肥相比,减氮并配施生物菌剂处理能明显提高烟株各生育时期土壤中有机质、速效磷和速效钾含量,明显增加根际和非根际细菌和放线菌数量,烟叶产量提高172~586 kg/hm~2,产值提高8927~21357元/hm~2。烤后烟叶化学成分分析表明,与常规施肥相比,减氮并配施生物菌剂处理降低了中、上部叶总糖和还原糖含量,除处理T5(众邦)外,中部叶和上部叶烟碱含量均有明显下降,下部叶、中部叶和上部叶烟叶钾含量提高幅度为分别为0.12~0.53、0.03~0.41和0.14~0.65个百分点。不同生物菌剂间相比,以处理T4(人元)和处理T2(时科)在经济性状和烟叶化学成分协调性上表现较好。     

彭水县烟叶化学成分协调性不同年份间变异分析

为掌握重庆市彭水县烟叶协调性的时间变异特征,对2005—2014年上(B2F)、中(C3F)、下(X2F)部烟叶的协调性指标进行分析。结果表明:在彭水烟区烟叶钾氯比和两糖差变异系数较大,两糖比年度间变异最小,而其他化学成分含量的变异幅度在30%以内。从不同年份部位间变异来看,各化学成分及协调性指标均有逐渐稳定的趋势。从不同部位间对比来看,上部叶各化学成分协调性指标年度间变异总体上大于中、下部叶。     

高温胁迫下蝴蝶豆的生理响应和耐热性评价

以自然高温胁迫下的11份蝴蝶豆为材料,研究叶片厚度、叶绿素值、叶片含水量、电导率值和丙二醛(MDA)含量等外观和生理指标与对照的差异,隶属函数分析结果表明:在高温胁迫下,材料C4、C6、C11的生长表现较好,在叶绿素含量、质膜透性、叶片含水量、MDA含量中的综合反应均较好,相比其它8个材料具有较好的相对耐高温特性,C1和C5的综合反应较弱,为热敏材料.     

Effect of allele combinations at Ppd-1 loci on durum wheat grain filling at contrasting latitudes

Flowering time is the most critical developmental stage in wheat, as it determines environmental conditions during grain filling. Thirty-five spring durum genotypes carrying all known allele variants at Ppd-1 loci were evaluated in fully irrigated field experiments for three years at latitudes of 41°N (Spain), 27°N (northern Mexico) and 19°N (southern Mexico). Relationships between weight of central grains of main spikes (W) and thermal time from flowering to maturity were described by a logistic equation. Differences in flowering time between the allele combination causing the earliest (GS100/Ppd-B1a) and the latest (Ppd-A1b/Ppd-B1a) flowering were 7, 20 and 18 days in Spain, northern Mexico and southern Mexico, respectively. Flowering delay drastically reduced the mean grain filling rate (R) and W at all sites. At autumn-sowing sites, an increase of 1°C in mean temperature during the first half of the grain filling period decreased W by 5.2 mg per grain. At these sites, W was strongly dependent on R. At the spring-sowing site (southern Mexico), W depended on both R and grain filling duration. Our results suggest that incorporating the allele combinations GS100/Ppd-B1a and GS105/Ppd-B1a (alleles conferring photoperiod insensitivity) in newly released varieties can reduce the negative effects of climate change on grain filling at the studied latitudes.     

黑龙江烟草病害种类鉴定及发生情况

为了明确黑龙江主要烟区目前病害发生和危害情况，于2010-2013年对黑龙江烟草主产区病害进行普查。鉴定结果表明，黑龙江烟草病害26种，其中真菌病害11种，细菌病害2种，病毒病害7种，寄生性种子植物1种，非侵染性病害5种；发生普遍且危害重的病害主要是烟草普通花叶病、角斑病。     

纳米材料在卷烟减害中的应用研究

按照纳米材料在卷烟中的不同添加方式,即添加至滤棒、烟丝和其他卷烟材料中,综述了近年来纳米材料在卷烟减害方面的应用,可知今后纳米材料在卷烟中的应用前景十分广阔。     

Decreasing of methanogenic activity in paddy fields via lowering ponding water temperature: A modeling investigation

Methane (CH₄) is a potent greenhouse gas and the huge CH₄ fluxes emitted from paddy fields can prejudice the eco-compatibility of rice cultivation. CH₄ production in submerged rice crops is known to be highly influenced by water temperature. Hence, lowering ponding water temperature (LPWT) could be an option to mitigate CH₄ emissions from paddy environments when it is possible either to irrigate with slightly colder water or to increase ponding water depth. However, paddy soil is a complex environment in which many processes are simultaneously influenced by temperature, leading to a difficult prediction of LPWT effects. For this reason, LPWT efficiency is here theoretically investigated with a one-dimensional process-based model that simulates the vertical and temporal dynamics of water temperature in soil and the fate of chemical compounds that influence CH₄ emissions. The model is validated with literature measured data of CH₄ emissions from a paddy field under time-variable temperature regime. Based on modeling results, LPWT appears promising since the simulated reduction of CH₄ emissions reaches about −12% and −49% for an LPWT equal to −5 °C during the ripening stage only (last 30 days of growing season, when rice is less sensitive to temperature variations) and −2 °C over the whole growing season, respectively. LPWT affects CH₄ emissions either directly (decreasing methanogenic activity), indirectly (decreasing activity of bacteria using alternative electron acceptors), or both. The encouraging results provide the theoretical ground for further laboratory and field studies aimed to investigate the LPWT feasibility in paddy environments.