泛在知识环境下高校图书馆学科服务创新研究

泛在知识环境下高校图书馆学科服务的理念、内容和模式都出现了一系列新变化。在对全新的服务理念和服务内容进行分析的基础上,提出图书馆应该建立与此相适应的团队协作、互动协同新模式。     

西宁盆地黄土区荷载条件下植被护坡力学效应

为探讨西宁盆地黄土区边坡在荷载条件下植物根系对边坡稳定性的影响,该项研究以西宁盆地西山长岭沟流域为试验区,在自建边坡上种植草本植物垂穗披碱草（Elymus nutans）和灌木植物柠条锦鸡儿（Caragana korshinskii）,通过在边坡坡顶施加载荷,边坡坡面布设位移计与土压力盒的方式,监测荷载条件下边坡坡面土体位移与土压力变化;在此基础上,对边坡植被根-土复合体开展剪切试验,分析荷载条件下边坡坡面不同位置处根-土复合体抗剪强度及其变化特征。试验结果表明：在坡顶荷载条件下,在边坡相同位置处的根-土复合体粘聚力c值均大于施加载荷前;3种植物边坡的根-土复合体粘聚力c值均大于相同条件的未种植素土边坡;在荷载条件下,组合植被边坡的坡面土体位移量显著小于单一植被边坡和素土边坡,组合植被边坡在竖直和水平方向的位移量与草本植被边坡相比减小1.60～1.77 mm,与灌木植被边坡相比减小3.78和4.11 mm,与素土边坡相比减小7.39和6.29 mm。研究结果对防治高寒半干旱地区坡面水土流失、浅层滑坡等地质灾害,具有参考价值和指导意义。     

Subsurface drainage for reversing degradation of waterlogged saline lands

In irrigated agriculture of arid and semiarid regions waterlogging coupled with salinity is a serious problem. Experimental evidence at several locations has led to the realization that subsurface drainage is an essential intervention to reverse the processes of land degradation responsible for the formation of waterlogged saline lands. This paper presents the results of a study conducted from 1995 to 2000 to evaluate the impacts of subsurface drainage on soil properties, groundwater‐table behaviour and crop productivity in a waterlogged saline area of 2200 ha. A subsurface drainage system was installed at 1·6 m depth with 60 m drain spacing covering an area of 1200 ha (23 blocks) during 1997–99 and compared with an undrained block of 1000 ha. Subsurface drainage facilitated the reclamation of waterlogged saline lands and a decrease in the soil salinity (EC_e, dS m⁻¹) that ranged from 16·0 to 66·3 per cent in different blocks. On average, 35·7 per cent decrease in salt content was observed when compared with the initial value. Provision of subsurface drainage controlled the water‐table below the root zone during the monsoon season and helped in bringing the soil to optimum moisture content for the sowing of winter crops. In the drained area, the increase in yields of different crops ranged from 18·8 to 27·6 per cent. However, in the undrained area the yield of different crops decreased due to the increased waterlogging and soil salinity problems. Overall the results indicated that investment in subsurface drainage is a viable option for reversing the land degradation of waterlogged saline lands in a monsoon climate. Copyright © 2006 John Wiley & Sons, Ltd.     

中国畜牧环境标准化体系建设浅析

畜牧环境是推动畜牧业跨越式发展的三大因素之一,但在实际生产中,对畜牧环境的重视不够,致使畜牧业发展受到限制。建立畜牧环境标准化体系是解决此问题的一个途径。该文主要简述了畜牧环境标准化的含义及其在畜牧业可持续发展与安全畜产品生产方面的重要作用。分析了目前我国畜牧业标准化方面存在的问题:畜牧环境标准体系建设有待完善、标准不统一、标准质量、标准的贯彻实施以及监测网络建设等问题。并在此基础上,提出了若干畜牧环境标准化建设的对策建议。     

Effect of tillage and mode of straw mulch application on soil erosion in the submontaneous tract of Punjab, India

The submontaneous tract of Punjab comprising 10% of the state, is prone to soil erosion by water. Soils of the area are coarse in texture, low in organic matter and poor in fertility. High intensity rains during the monsoon season result in fertile topsoil removal. There is an urgent need to control soil erosion in this region so as to improve soil productivity. A field study was conducted to estimate the effect of tillage and different modes of mulch application on soil erosion losses. Treatments comprised two levels of tillage, viz. minimum (T_m) and conventional (T_c) in the main plots and five modes of straw mulch application, viz. mulch spread over whole plot (M_w), mulch spread on lower one-third of plot (M_1/3), mulch applied in strips (M_s), vertical mulching (M_v) and unmulched control (M_o), in subplots in a replicated split plot design. Rate of mulch application was 6 t ha⁻¹ in all modes. Compared with M_o, M_w reduced runoff by 33%. Runoff and soil loss were 5 and 40% higher under T_c than under T_m. Though other modes of straw mulch application (M_1/3, M_s and M_v) controlled soil loss better than M_o, their effectiveness was less than M_w. T_m was more effective in conserving soil moisture than T_c. Compared with M_o, M_w had 3–7% higher soil moisture content in the 0–30 cm soil depth under T_m. Minimum soil temperature of the surface layer was 1.4–2.4 °C lower under M_w than under M_o. Straw mulching reduced maximum soil temperature and helped in conserving soil moisture. Minimum tillage coupled with M_w was highly effective in reducing soil erosion losses, decreasing soil temperature and increasing moisture content by providing maximum surface cover.     

Lithium toxicity in plants

Abstract

The toxicity of Li to three plant species was studied to determine if there were interactions with other elements and to determine if a chelating agent modified Li toxicity. Bush beans (Phaseolus vulgarls L. C.V. Improved Tendergreen), grown in solution culture, were sensitive to 0.5 X10^‐3Li which resulted in 10 μg/g in leaves, 48 in stems, and 24 in roots. Higher concentrations of Li produced marked reductions in plant yield accompanied by increased Li concentrations in leaf, stem, and root tissues. For most treatments, root concentrations of Li were lower than those in shoots, but those in stems were higher than those in leaves. Higher levels of Li decreased Zn in leaves, increased Ca in stems, and generally increased Fe and Mn in all plant tissues. Ethylenediamine tetraacetic acid (EDTA) resulted in slightly increased Ii levels in leaves, stems, and roots. Bush bean plants were injured slightly with 25 μg Li/g of Yolo loam soil applied as LiCl; 50 μg Li/g soil caused more severe injury. Leaf concentrations of about 200 μg Li/g resulted in significant yield reduction and around 600 μg//g of leaves resulted in severe toxicity. There were some interactions of Li with other elements which resulted in an increase of them in both leaf and stem tissues. Barley plants (Hordeum vulgare L. C.V. Atlas 57) were severely stunted when grown with 500 and 1000 μg Li/g soil as Li oxalate. Increasing the soil pH even further with lime and decreasing it with S had no influence on the toxicity. Shoot concentrations of Li ranged from 800 to over 2000 in the various treatments resulting in severe disruption of the Ca and K balance. Leaf concentrations of Li were higher than those for stems in cotton (Gossypium hirsutum L. C.V. Acala 442). Cotton was tolerant of a leaf concentration of 587 μg Li/g. High levels of Li increased concentrations of several elements in cotton leaves and in stems. Cotton leaves accumulated more Li than did bush beans.     

论水土保持工程在大江大河防洪减灾中的地位与作用

分析各种流域面积特别是在大江大河上发生各种雨型和较大降水量情况下的水土保持工程的作用,结果表明水土保持工程在防洪减灾中起决定性作用。在安排近期江河防洪体系工程建设中,一定要把水土保持工程真正纳入防洪工程建设体系,建立一个稳定的资金渠道,以加大投资力度,加速水土保持工程的建设。     

浅谈西部大开发和生态环境建设

西部大开发主要是经济开发 ,它对西部地区和全国加速现代化建设和实施可持续发展战略具有现实意义和深远影响。西部地区严重的水土流失和土地荒漠化、“四料”俱缺 ,应引起有关部门的高度重视 ,在建立农村新型经济过程中 ,应首先解决好农村能源严重不足的问题。自然环境是经济发展的物质基础和条件 ,要依法保护好现有的天然林木 ,大力发展封山育林、育草和飞播造林 ,积极退耕还林还草。国家应组建国家生态建设委员会或环境资源部 ,将西部大开发中的有关部门统管起来     

水盐交互作用对河套灌区土壤光谱特征的影响

为探究土壤水盐交互作用对Sentinel-2卫星光谱特征的影响,该研究以内蒙古河套灌区沙壕渠灌域为研究区域,分别在2018年和2019年的4—5月共采集280个裸土期表层土壤样本,测定其土壤含水率和含盐量,并获取同步的Sentinel-2卫星遥感数据,构建基于土壤水盐-反射率原理的土壤光谱特征理论模型,在此基础上结合土壤水盐交互作用构建水盐交互模型,并比较2种模型对土壤光谱的模拟效果,分析土壤水盐交互作用对土壤光谱估算的影响。结果表明:1)土壤水盐交互作用对光谱的影响因波段类型和水盐含量的不同而有所不同。在可见光范围上影响相对较弱,其作用范围为-0.11～0.29;在近红外和短波红外范围上影响相对较强,其作用范围为-0.35～0.61;当水分或盐分中某个含量较高时对光谱影响较弱,在水盐含量程度相似时影响较强。2)与土壤光谱特征理论模型相比,水盐交互模型能明显地改善土壤光谱的模拟效果,能将模拟相关系数由0.14～0.44提升到0.29～0.59,均方根误差由0.032～0.082降低到0.029～0.068。该研究结果揭示了盐分和水分对光谱特征的干扰过程,为土壤盐分的估算提供策略与方法,...     

Physiological mechanisms for antagonistic interaction of manganese and aluminum in barley

In a previous study, we found that the combined addition of Al and Mn in the culture solution could alleviate the inhibition of barley growth by addition of Al or Mn alone. The current experiment was conducted in a greenhouse to investigate the physiological mechanisms of the antagonistic interaction using two barley genotypes, XZ16 (both Al and Mn tolerant) and ZU9 (both Al and Mn sensitive). The treatments consisted of three Al levels (0, 0.1, and 0.5?mM) and three Mn levels (0, 0.2, and 1.0?mM) and their combinations, and a completely randomized block design was used with three replications. The combined treatments had larger plant biomass, lower Al and Mn concentrations and accumulation in plant tissues, lower malondialdehyde content, and higher root ATPases activities, compared with Al or Mn alone treatment. The two genotypes had the similar trend in the antagonistic interaction, with ZU9 being more predominant than XZ16.