秸秆压块机辊口式环模耐磨机理分析与试验

环模秸秆压块机成型过程中,由于秸秆颗粒与环模之间的滑动摩擦,环模模孔磨损十分严重,导致环模使用寿命缩短。以工字型模块组成的立式环模为研究对象,提出在工字型模块喂料端设置辊口式结构,即在工字型腰部上下两翼加工圆孔,孔中装配轴承和插入圆辊。通过相邻圆辊间所构成的辊口压入秸秆颗粒,从而将物料与原模块间因数较大的滑动摩擦变为物料与圆辊间因数较小的滚动摩擦,达到减小模孔磨损的目的。利用有限元软件分析得到改进前和改进后模孔处的磨损率曲线,结果表明:改进前环模最大磨损率0.11μm/s,改进后辊口式环模最大磨损率0.01μm/s,远小于改进前磨损率。通过试验表明所设计的辊口式环模具有减小磨损和延长环模寿命的作用。     

渭北黄土高原主要造林树种根系分布特征及抗旱性研究

采用土钻法和盆栽试验研究了渭北地区主要造林树种的垂直根系分布特征及其抗旱性。结果表明立地条件对刺槐根系分布特征有明显的影响 ,林地土壤水分状况的差异是造成这种影响的关键所在 ;土壤种类、结构等对刺槐根系的分布特征也有很大的影响 ;不同树种在根系垂直分布特征方面存在着很大的差异 ,其中刺槐的根系分布最深 ;在一定的土壤干旱范围内 ,苗木可以通过提高根系活力来适应逆境 ,当土壤干旱超过一定的阈值后 ,树木根系将逐步丧失其活力和功能 ,最终导致地上部分的枯死 ;在供试的 4个树种中 ,山杏根系的抗旱性最强 ,其次是侧柏、刺槐和油松。苗木根系活力除了受土壤干旱协迫程度的影响之外 ,还受到干旱持续时间的影响。当土壤含水量降至 4 0 %的田间持水量时 ,土壤干旱已经对油松的生长构成了威胁 ,但对山杏、侧柏及刺槐的影响不大     

阳台壁挂式太阳能:推进太阳能与建筑节能的结合

中国是一个发展中国家,人均能源资源相对贫乏。目前中国总面积为96亿hm2,耕地面积只有1.2亿hm2,人均耕地面积才只有933.8 m2。每年城乡新建建筑竣工面积约为15亿至20亿m2;建筑能源耗能占全社会总耗能近37%,其中建材的生产能耗占16.7%,用水占城市用水的47%,建筑使用的钢材占全国用钢量的30%,水泥占25%。目前,在中国已建成的近400亿m2的建筑中,99%为高耗能建筑,新建建筑中95%以上也仍属于高耗能建筑,因而建筑节能就成为重中之重。随着节能省地型建筑的大面积推广,高层住宅建筑在城镇建筑中越来越广泛,如何推广太阳能在高层节能建筑中的应用,成为政府、建筑商关注的一个要点。     

Boron-Calcium Synergically Alleviates Aluminum Toxicity in Wheat Plants (Triticum aestivum L.)

The effects of B and Ca treatments on root growth, nutrient localization and cell wall properties in wheat ( Triticum aestivum L.) plants with and without Al stress were investigated. Seedlings were grown hydroponically in a complete nutrient solution for 7 d and then treated with B (0, 40 μM), Ca (0, 2,500 μM), and Al (0, 100 μM) in a 500 μM CaCl₂ solution for 8 d. The cell wall materials (CWM) were extracted with a phenol: acetic acid: water (2:1:1 w/v/v) solution and used for subsequent pectin extraction with trans -1,2-diami-nocyclohexane- N,N,N,N -tetraacetic acid (CDTA) and Na₂CO₃ solutions. Boron, Ca, and B + Ca treatments enhanced root growth by 19.5, 15.2, and 27.2%, respectively, compared to the control (pH 4.5). Calcium and B+Ca treatments enhanced root growth with Al stress by 43 and 54%, respectively, while B did not exert any effect. The amounts of CWM and pectin per unit of root fresh weight increased by Al treatment, whereas the Ca and B+Ca treatments slightly reduced the contents of these components. Seventy-four percent of total B, 69% of total Ca, and 85% of total Al were located in the cell wall in the B, Ca, and Al treatments, respectively and 32% of total B, 33% of total Ca, and 33% of total Al were located in the CDTA-soluble and Na₂CO₃-soluble pectin fractions. A more conspicuous localization of B was observed in the presence of Al. Aluminum treatment markedly decreased the Ca content in the cell wall as well as pectin fractions, mainly in the case of the CDTA-soluble pectin fraction. Boron + Ca treatment decreased the Al content in the cell wall and pectin fractions compared to the Ca treatment alone in the presence of Al. It is concluded that the B+Ca treatment enhanced root growth and, B and Ca uptake, and helped to maintain a normal B and Ca metabolism in the cell walls even in the presence of Al.     

Characterization of glomalin as a hyphal wall component of arbuscular mycorrhizal fungi

Arbuscular mycorrhizal fungi (AMF) produce a protein, glomalin, quantified operationally in soils as glomalin-related soil protein (GRSP). GRSP concentrations in soil can range as high as several mg g⁻¹ soil, and GRSP is highly positively correlated with aggregate water stability. Given that AMF are obligate biotrophs (i.e. depending on host cells for their C supply), it is difficult to explain why apparently large amounts of glomalin would be produced and secreted actively into the soil, since the carbon could not be directly recaptured by the mycelium (and benefits to the AMF via increased soil structure would be diffuse and indirect). This apparent contradiction could be resolved by learning more about the pathway of delivery of glomalin into soil; namely, does this occur via secretion, or is glomalin tightly bound in the fungal walls and only released after hyphae are being degraded by the soil microbial community? In order to address this question, we grew the AMF Glomus intraradices in in vitro cultures and studied the release of glomalin from the mycelium and the accumulation of glomalin in the culture medium. Numerous protein-solubilizing treatments to release glomalin from the fungal mycelium were unsuccessful (including detergents, acid, base, solvents, and chaotropic agents), and the degree of harshness required to release the compound (autoclaving, enzymatic digestion) is consistent with the hypothesis that glomalin is tightly bound in hyphal and spore walls. Further, about 80% of glomalin (by weight) produced by the fungus was contained in hyphae and spores compared to that released into the culture medium, strongly suggesting that glomalin arrives mainly in soil via release from hyphae, and not primarily through secretion. These results point research on functions of glomalin and GRSP in a new direction, focusing on the contributions this protein makes to the living mycelium, rather than its role once it is released into the soil.     

东北黑土漫岗区土壤侵蚀垂直分带性研究

东北黑土漫岗区由于其独特的自然地理与人文环境特征表现出独特的侵蚀产沙特性。通过对典型黑土漫岗区土壤侵蚀宏观遥感调查、微地貌采样调查及对该区域的实地考察,总结出该区土壤侵蚀随宏观地貌及微地貌垂直分带变化的一般特点。从黑土漫岗区土壤面蚀与沟蚀发展的一般过程出发,提出了该区土壤面蚀、沟蚀发展的一般模式。研究结果将有助于对黑土侵蚀过程的认识,进而为该区侵蚀泥沙来源与沉积位置的确定、坡沟治理的方针以及水保措施配置等重大理论与治理决策问题提供理论基础。     

铝胁迫下硝普钠对黑麦和小麦根尖细胞壁铝吸附的影响

用一氧化氮供体硝普钠(sodium nitroprusside,SNP)处理铝胁迫下的黑麦和小麦幼苗,探讨铝胁迫和铝胁迫下外源NO对黑麦和小麦根尖细胞壁铝吸附的影响。结果表明:铝显著抑制黑麦和小麦根的伸长生长,小麦受抑制更为严重;SNP处理可缓解铝对黑麦和小麦根伸长生长的抑制作用,1 mmol/L SNP处理最有效。小麦根尖对铝的吸附量和吸附速率显著高于黑麦的,1 mmol/L SNP处理显著降低小麦和黑麦细胞壁对铝的吸附量,使根尖铝含量显著下降。铝与根尖细胞壁的结合是导致植物铝毒害的重要原因,而降低根尖细胞壁对铝的吸附是外源NO缓解铝毒害的重要机制。     

墙体材料及其组合对日光温室墙体保温性能的影响

利用热反应系数法和日光温室热环境的数学模型模拟分析了日光温室墙体得热量、墙体温度以及室内气温,比较了墙体材料的不同组合对保温性能的影响。结果表明,对不同厚度砖墙聚苯板隔热材料的厚度以0.10m为宜;相同厚度隔热材料在砖墙厚度较薄时保温效果优于较厚的砖墙;砖墙厚度较薄时材料的排列秩序对保温影响较明显。     

水稻纹枯病菌胞壁降解酶的产生及致病作用

水稻纹枯病菌(Rhizoctonia solaniKühn)在改良的Marcus培养液中能产生多聚半乳糖醛酸酶(PG)、纤维素酶(Cx)、果胶甲基半乳糖醛酸酶(PMG)、多聚半乳糖醛酸反式消除酶(PGTE)和果胶甲基反式消除酶(PMTE)5种胞壁降解酶,其中PG、Cx和PMG活性较高,而PGTE和PMTE活性很低。病菌产生胞壁降解酶的最佳条件是:在pH5培养液中28℃下静置培养6 d。病菌接种水稻叶鞘后也能显著产生PG、Cx和PMG等胞壁降解酶,并且病斑外侧褪绿部酶活最高,平均为对照(健康部)的3.4倍;其次是褐色部,酶活总量平均为对照的2.9倍;病斑中央枯白部酶活较低,但明显高于对照。这一结果提示,在病菌侵染和扩展过程中胞壁降解酶起重要作用。果胶酶(PG、PMG)和纤维素酶(Cx)无论是单独处理还是混合处理,对水稻叶鞘都具有显著地损伤细胞膜和浸渍组织的作用。     

洞庭湖环湖丘岗区土壤动物群落组成及分布

以洞庭湖环湖丘岗区4个生态系统为标准样地研究土壤动物群落的组成、垂直结构及季节性变化。全部调查共获得土壤动物31 298只、30类分别隶属于4门13纲29目。其中,蜱螨类、弹尾类、等翅目、膜翅目、鞘翅成虫和双翅幼虫为最重要类群。被调查的4个生境的土壤动物群落,个体数量变化趋势是:针阔混交林>茶林>竹林>阔叶林,类群数变化趋势是:竹林=茶林>针阔混交林>阔叶林。4个生境土壤动物的个体数和类群数均具有明显的表聚性,并随土层加深动物个体数及类群数递减的规律。土壤动物的多样性以冬季、春季最丰富,夏季最少,季节变化的波动性较大。