不同退耕年限撂荒地植物多样性及生物量分析

退耕还林(草)作为黄土高原水土流失综合治理的主要生态建设措施,经过几十年的开展,黄土高原生态环境得到极大恢复,林草覆盖率明显增加。以安塞县纸坊沟流域为研究区,选取坡耕地(0a)为对照,研究了退耕年限(3～5,10,18,28,37a)对撂荒地植物多样性和生物量的影响。结果表明,随退耕年限的延长,物种丰富度指数、多样性指数、均匀度指数、相同土层根长密度都表现为增大—减小—增大的趋势;植被盖度和地上生物量表现为37a>28a>18a>3～5a>10a>0a;撂荒地植被根系生物量、根长密度均随土层深度增加而减少;不同退耕年限撂荒地,相同层根系生物量表现为28a>37a>18a>3～5a>10a>0a。     

土壤容重对草甸土坡面养分流失特征的影响

通过室内模拟降雨试验对不同土壤容重的草甸土坡面养分流失特征进行研究。结果表明:土壤容重是坡面草甸土养分流失的重要影响因子,土壤容重不同,降雨引起的坡面表土养分流失的程度不同。硝态氮主要随径流流失,占总流失量的55%～79%,70%～84%的有效磷和速效钾随泥沙流失。不同形态的养分在流失泥沙中有富集现象,但富集比各不相同。土壤容重在0.8～1.2g/cm3之间变化时,随土壤容重增加,土壤孔隙度减小,入渗能力减弱,土壤养分在降雨侵蚀力作用下流失量不断增加。但随容重的继续增大,土壤抗蚀性增大,产沙量减小,养分流失量也有减小的趋势。在降雨、坡度等一定的条件下,土壤最容易被侵蚀而发生养分流失的容重范围为1.2～13g/cm3。     

黄土半干旱区林草复合优化配置与结构调控研究进展

林草复合系统是我国干旱与半干旱地区陡坡农林复合的主要模式之一。该文在综述黄土高原林草复合模式生态效益、社会效益、经济效益的基础上,对黄土半干旱区林草复合优化配置与结构调控研究进展进行了研究,提出了适宜黄土半干旱区林草复合的造林树种为刺槐和油松,草种为以苜蓿为代表的豆科类优质牧草。并对目前晋西黄土区林分密度研究进行了分析,根据水量平衡原则确定了适宜于在黄土高原推广应用的林分合理密度计算公式。在对黄土高原林草复合研究现状进行分析的基础上,提出了黄土高原林草复合研究中存在的问题,以及未来的发展方向,旨在为黄土高原退耕还林及水土保持人工林建设提供借鉴。     

土壤容重对玉米光合特性的影响及调控研究

以耕地棕壤为试验材料,采用盆栽方法,研究不同土壤容重对玉米光合指标(光合速率、气孔导度、胞间二氧化碳浓度)及叶绿素(a、b)的影响,并进一步研究了施用不同有机肥量及模拟不同耕作深度对玉米光合指标的调控效果。结果表明:不同容重处理之间对玉米叶绿素含量的影响拔节期前差异不显著,拔节期后达极显著差异(p<0.01),叶绿素含量在研究的生育期内始终增长。光合速率与容重、胞间二氧化碳浓度呈负相关,与气孔导度呈正相关。高容重土壤有机质调节至40～50 g kg-1即可以获得比较理想的效果;低容重的土壤有机质在研究含量范围内效果始终显著增长,有机质含量在15 g kg-1左右制约玉米生长,有机质含量应至少调节至3%以上。耕层厚度增加能提高所测定生理指标,但耕层厚度处理对叶绿素、光合指标影响不显著,当耕层厚度调节至30～40 cm时,各项指标增加基本达到限值,再增加耕层厚度作用不再明显。     

RESPONSES OF WHEAT PLANTS IN TERMS OF SOIL WATER CONTENT,BULK DENSITY,SALINITY, AND ROOT GROWTH UNDER DIFFERENT PLANTING SYSTEMS AND VARIOUS IRRIGATION FREQUENCIES

The effects of irrigation water rates and seed bed shapes on changes in soil water and salinity status, bulk density, root growth and dry matter (DM) weights of wheat plants (Triticum aestivum L.) were investigated with a split plot design in a field trial in Zahak Agricultural Research Station in Sistan, Iran in 2005. Irrigation intervals after 80 and 160 mm evaporation from class A evaporation pan were used as main plot. Flat surface, single, triple, and six-row beds with a 20 cm row space were used as subplots. Each treatment was replicated four times. Volumetric soil water content and soil electrical conductivity (EC) were measured using Time Domain Reflectometry (TDR) at 0 —20, 20 —40 and 40 —60 cm depths at nine different times during the growing season. Soil water contents were also measured at 0 —10 and 10 —20 cm depths using standard sampling rings at four different times. The three and six-row beds increased the EC of the saturated paste extract with the more frequent irrigation intervals in this coarse textured soil. Soil water content, DM, and root density were always greater with the more frequent irrigations (shorter irrigation intervals). Root density was greatest in 0 —20 cm depth with the single row bed treatment. Grain yield and root density were greatest with single row bed treatment due to the bed shape at the root development stage (possibly due to a reduced mechanical resistance). A greater soil water content by the short irrigation interval increased grain yield and root density via reducing mechanical resistance. With the loamy sand, bulk density and mechanical resistance increased rapidly after cultivation. Bed shape at root development stage might have enhanced root growth and the crop yields. Apparently, mechanical resistance was the most limiting factor with these loamy sand soils than salinity.     

Response of soil properties and yam yield to Chromolaena odorata (Asteraceae) and Tithonia diversifolia (Asteraceae) mulches

Plant materials differ in their chemical composition, rate of decomposition and suitability as mulch materials. Experiments were conducted during 2006–2007 and 2007–2008 cropping seasons for early yam cultivation at Owo in the forest–savanna transition zone of southwest Nigeria to study the effect of Chromolaena odorata and Tithonia diversifolia mulches applied at 0.0, 5.0, 7.5, 10.0 and 12.5 t ha^?1 on soil chemical properties, leaf nutrient composition, growth and tuber yield of white yam (Dioscorea rotundata Poir). Both C. odorata and T. diversifolia mulches reduced soil bulk density and temperature; increased concentrations of soil organic matter (SOM), total N, available P, exchangeable K, Ca and Mg, leaf N, P, K, Ca and Mg; enhanced growth and yield of yam compared with control. The values of SOM, total N and available P and leaf N and P concentrations increased with increasing mulch rate. C. odorata mulch and T. diversifolia mulch applied at 10.0 and 7.5 t ha^?1, respectively, was found to be suitable for yam production. T. diversifolia mulch compared with C. odorata mulch produced higher values of soil chemical properties, leaf nutrient concentrations, growth and yield of yam. T. diversifolia mulch produced 19% and 18% higher tuber yield compared with C. odorata mulch during 2006–2007 and 2007–2008 cropping seasons, respectively.     

Yield components,light interception and marker compound accumulation of stevia (Stevia rebaudiana Bertoni) affected by planting material and plant density under western Himalayan conditions

A field experiment was conducted to study the effect of planting material and plant density on stevia (Stevia rebaudiana Bertoni) under western Himalayan conditions during 2011 and 2012. The experiment conducted in a split plot design consisted of two types of planting material (rooted slips and fresh seedlings) in the main plot and five inter- and intra-row spacing in subplots with three replications. Yield attributes and dry leaf biomass yield of stevia were not affected by the type of planting material; however, plant density significantly influenced the yield attributes and leaf and stem dry biomass. Although the wider spacing (60 × 45 cm) gave more leaves, higher leaf area index, higher leaf dry mass per plant as compared to closer spacing, it resulted in lower values of these attributes per unit area. Plants spaced in 30 × 30 cm accumulated 41.2% and 42.8% more total biomass than 60 × 45 cm. Steviol glycoside content did not change due to different planting materials and plant densities; however, closer plant spacing (30 × 30 cm) recorded 114.8% and 70.0% higher steviol glycoside accumulation compared to wider row spacing (60 × 45 cm) in 2011 and 2012, respectively.     

玉米生长后期的根系分布研究

为了研究玉米生长后期根系的生长发育规律,利用中国气象局固城农业气象试验站大型根剖面系统,采用微根管观测系统及方形整段标本法和地下根系室玻璃窗,对‘屯玉46号’玉米根系的生长状况进行了试验研究。结果表明:垂直方向上,方形整段标本法和微根管法测得的根长密度占整层总根长密度比例的变化趋势一致,相关系数分别为0.987和0.717,且两种方法在0~20 cm土层的根长密度比例均为最大。0~60 cm土层为玉米根系生长活跃区,方形整段标本法测得根长密度生长量为其余层的4倍。两种方法测得的根长密度无显著差异,相关系数为0.830,均匀性水平较好。玉米成熟期根系的水平幅度较乳熟期窄,下层根系仍处于生长中,垂直深度增加。玻璃窗与方形整段标本法观测的根深测定结果存在差异,这可能与观测环境条件不一致有关。     

成都典型区轮作与土壤特征类型对有机碳密度影响力比较研究

研究分析轮作制度与土壤特征类型对农田土壤有机碳密度变异的主导作用程度,对提高农田土壤固碳潜力具有重要意义。基于2010年在新都区和郫县采集的土壤样点数据,利用方差分析和逐步回归分析方法研究分析土壤特征类型(土壤质地、土壤亚类、成土母质)和轮作制度对成都平原典型区农田土壤有机碳密度(SOCD)变异的影响,比较土壤特征类型与轮作制度对土壤有机碳密度变异的影响力。结果显示:土壤特征类型和轮作制度均对SOCD的变异具有显著影响,特别是土壤质地类型,其中黏粒含量与各土层的SOCD之间均存在极显著正相关性(P0.01);与轮作制度影响力比较,土壤特征类型对SOCD变异性影响起主导作用,能够分别解释SOCD在0~40、0~20和20~40 cm土层变异性的35.9%、43.0%和16.8%;而轮作制度对SOCD变异性影响表现在0~40和0~20 cm土层,SOCD逐步回归解释能力在土壤特征类型基础上仅增加2.2%和4.5%,轮作制度影响力不足以改变土壤特征类型对区域土壤有机碳密度变异的影响地位。研究和揭示区域农田土壤有机碳密度变异及其驱动力,更应注重土壤特征的影响力,轮作制度影响力可以被忽略。     

不同种植方式对红壤旱地土壤水分及抗旱能力的影响

通过3年田间小区试验,研究不同种植方式对红壤旱地土壤水分及抗旱能力的影响.结果表明：1）与种植花生相比,种植苎麻可显著提高土壤有机质质量分数（28.44％）、田间持水量（10.06％）和总孔隙度（5.65％）,土壤密度则显著降低7.20％;2）监测期内,花生地各层土壤以及整个0～ 100 cm土体水分变异系数普遍高于苎麻地,苎麻地0 ～ 100 cm土体水分的时间稳定性和空间协调性优于花生地;3）苎麻地0～ 40 cm土壤较花生地延长抗旱时间7d以上,但随着土层的加深,差异越来越小;4）红壤坡耕地种植苎麻有利于提高红壤旱地土壤抗旱能力,特别是中、上层土壤.从扩充土壤水库的角度考虑,红壤旱地种植苎麻优于种植花生,该研究结果可为挖掘红壤区深层土壤水分提供参考.