人工湿地污水处理系统冬季植物的筛选与评价

选用25种冬季湿地植物进行了污水净化潜力筛选试验,并在综合应用原有湿地植物筛选与评价体系的基础上,增加植物逆境酶和基质酶指标,对试验植物进行了聚类分析.结果表明,测试植物的根系长度、活力、叶片丙二醛含量、生长量、氮磷浓度、氮磷的积累能力、根际基质脲酶活性与磷酸酶活性均存在显著差异.采用建立的净化潜力评价体系将测试植物聚类分为3大类,第1类净化力强,植物种类有水芹、油菜、灯芯草、虎耳草、德国鸢尾、桂花和花菖蒲,第2类净化力中等,植物种类有羽衣甘蓝、金盏菊、撒金珊瑚、女贞、红甜菜、杜鹃和大叶冬青,第3类净化力弱,植物种类有白菜、五月菊、月季、金鱼草、麦冬、葱兰、熊掌木、矮牵牛、小叶冬青、香石竹和红继木.     

PQAAM聚合物对细粒煤的助滤性能

研究了PQAAM聚合物对细粒煤的脱水助滤作用与机理。结果表明：PQAAM具有良好的吸附能力和絮凝能力,能够降低煤粒表面负电性,提高煤粒表面的疏水性,促使微细粒煤形成疏水性絮团,从而降低滤饼水分,提高过滤效率,是一种优良的脱水助滤剂。     

根分泌物研究现状及其在农业与环境领域的应用

对植物根分泌物的分泌特性、生理及分子生物学基础 ,根分泌物与农业、环境的关系 ,根分泌物在土壤肥力、土壤受重金属污染的植物修复以及化感物质分泌及植物遗传改良等领域的研究成果和结论进行了综述 ,并提出了我国根分泌物今后的研究方向 ,以期推动国内这一领域的深入研究。     

植物根系分泌物与根际营养关系评述

根系分泌物（ｒｏｏｔ ｅｘｕｄａｔｅｓ, ＲＥ）主要有粘胶、外酶、有机酸、糖、酚及各种氨基酸。不同营养基因型的植物, ＲＥ组分明显不同。存在养分和环境胁迫时,植物通过增加粘胶、酶及某些有机酸的分泌量以适应变化的环境。ＲＥ也是植物改善根际营养环境的重要手段。ＲＥ可改善土壤物理结构,促进矿物风化,提高土壤ＣＥＣ,影响土壤ｐＨ、土壤矿物表面吸附性能及土壤生物学性质。ＲＥ还在活化根际土壤养分,促进植物对养分吸收起主要作用。今后ＲＥ的研究应注重ＲＥ研究方法的完善,拓展研究领域,并加强与各学科的联合。     

非点源污染物细颗粒泥沙的絮凝-分散研究

细颗粒泥沙的絮凝-分散对土壤结构的稳定性,土壤中农用化合物的迁移以及侵蚀泥沙的输移、沉积有重要作用。文章概述了影响细颗粒泥沙絮凝-分散的几种主要因素——电解质种类及其浓度,矿物组成,有机质含量,pH值以及水流紊动等;指出了当前研究中存在的不足之处。     

离子液体对三种农作物发芽和生长的毒性研究

为了考察离子液体的生态毒性,研究了5种离子液体及其浓度变化对3种农作物发芽及生长状况的影响。结果表明：就种子发芽这一生态毒理指标而言,不同作物对离子液体毒性的敏感程度不同,其次序为黄瓜>玉米>白菜;在一定浓度下,离子液体对白菜、黄瓜和玉米均具有一定的毒害作用;对于所考察的5种离子液体,阴离子为卤素的［EMIM］Br和［BMIM］Cl对植物发芽和生长的抑制作用远大于阴离子为烷基硫酸酯和烷基磷酸酯的同类离子液体 ［EMIM］［ES］、［EMIM］［DEP］和［MMIM］［DMP］。这种毒性顺序可能与卤素离子对细胞膜较强的穿透能力和由于离子液体的稳定性所造成的阴阳“离子对”的共迁移有关。     

发根农杆菌T—DNA基因对3种葛属植物毛状根形态和葛根素含量的影响

野葛、山葛和三裂叶葛的离体叶片与发展根农杆菌R1601直接感染诱导出毛状根并能够合成葛根素,毛状根离体培养后均出现两种形态：一种是有较高的葛根素含量的典型毛状根,另一种是葛根素含量低但生长速度较快的愈伤组织化毛状根,两类毛状根均有rol/B基因存在,表明rolB基因对所有毛状根的诱导和生长是必需的,aux1存在于所有愈伤组织化毛状根,而在典型毛状根中的检出率为20％－50％,表明aux1基因有诱导毛状根产生愈作组织的作用,含有ags基因的毛状根葛根素含量低于不含ags基因的毛状葛根素含量,表明ags基因不利于次生代谢合成,表3参12     

Evaluating the BANCS Streambank Erosion Framework on the Northern Gulf of Mexico Coastal Plain

The Bank Assessment of Nonpoint source Consequences of Sediment (BANCS) framework allows river scientists to predict annual sediment yield from eroding streambanks within a hydrophysiographic region. BANCS involves field data collection and the calibration of an empirical model incorporating a bank erodibility hazard index (BEHI) and near‐bank shear stress (NBS) estimate. Here we evaluate the applicability of BANCS to the northern Gulf of Mexico coastal plain, a region that has not been previously studied in this context. Erosion rates averaged over two years expressed the highest variability of any existing BANCS study. As a result, four standard BANCS models did not yield statistically significant correlations to measured erosion rates. Modifications to two widely used NBS estimates improved their correlations (r² = 0.31 and r² = 0.33), but further grouping of the data by BEHI weakened these correlations. The high variability in measured erosion rates is partly due to the regional hydrologic and climatic characteristics of the Gulf coastal plains, which include large, infrequent precipitation events. Other sources of variability include variations in bank vegetation and the complex hydro‐ and morphodynamics of meandering, sand bed channels. We discuss directions for future research in developing a streambank erosion model for this and similar regions.     

生物质炭对土霉素胁迫下小白菜种子萌发的影响

采用土培模拟污染实验,将甘蔗渣炭、菠萝渣炭和木薯渣炭分别以0%、0.1%、0.5%和1.0%的炭土比添加到砖红壤中,研究土霉素胁迫下小白菜种子萌发效应。结果表明:(1)生物质炭促进种子萌发;土霉素在0~300 mg·kg~(-1)胁迫下种子发芽率未受明显影响,300~500 mg·kg~(-1)时受轻微抑制。(2)土霉素为0~100 mg·kg~(-1)时对种子根及芽伸长呈促进作用,促进率最高达33.05%。100~500 mg·kg~(-1)呈抑制效应,最大抑制率63.98%;种子对土霉素的敏感顺序依次为:根伸长>芽伸长>发芽率。(3)在土霉素胁迫下炭土比与种子根伸长呈显著正相关。3种生物质炭对小白菜种子根及芽伸长的促进效果呈:木薯渣炭>菠萝渣炭>甘蔗渣炭。(4)生物质炭和低浓度土霉素共同促进小白菜萌发,对高浓度土霉素毒性有缓解作用。     

Microcystin-LR-induced phytotoxicity in rice crown root is associated with the cross-talk between auxin and nitric oxide

Irrigation with cyanobacterial-blooming water containing microcystin-LR (MC-LR) poses threat to the growth of agricultural plants. Large amounts of rice (Oryza sativa) field in the middle part of China has been irrigating with cyanobacterial-blooming water. Nevertheless, the mechanism of MC-LR-induced phytotoxicity in the root of monocot rice remains unclear. In the present study, we demonstrate that MC-LR stress significantly inhibits the growth of rice root by impacting the morphogenesis rice crown root. MC-LR treatment results in the decrease in IAA (indole-3-acetic acid) concentration as well as the expression of CRL1 and WOX11 in rice roots. The application of NAA (1-naphthylacetic acid), an IAA homologue, is able to attenuate the inhibitory effect of MC-LR on rice root development. MC-LR treatment significantly inhibits OsNia1-dependent NO generation in rice roots. The application of NO donor SNP (sodium nitroprusside) is able to partially reverse the inhibitory effects of MC-LR on the growth of rice root and the expression of CRL1 and WOX11 by enhancing endogenous NO level in rice roots. The application of NO scavenger cPTIO [2-(4-carboxy-2-phenyl)-4,4,5,5-tetramethylinidazoline-1-oxyl-3-oxide] eliminates the effects of SNP. Treatment with NAA stimulates the generation of endogenous NO in MC-LR-treated rice roots. Treatment with NO scavenger cPTIO abolishes the ameliorated effect of NAA on MC-LR-induced growth inhibition of rice root. Treatment with SNP enhanced IAA concentration in MC-LR-treated rice roots. Altogether, our data suggest that NO acts both downstream and upstream of auxin in regulating rice root morphogenesis under MC-LR stress.