The effect of sewage sludge application to bermudagrass on forage quality production,and metal accumulation

A bermudagrass (Cynodon dactylon (L.) Pers. cv. ‘Alicia’) sod was top-dressed with nutrient rates of 0-0-0, 180-78-20, 360-156-40 and 540-234-60 kg ha⁻¹ N, P and K, respectively, from commercial fertilizer and dried anaerobically digested sewage sludge. Mean seasonal dry matter production was similar regardless of nutrient source, but higher rates generally resulted in significantly higher yields. Treatment of forage with sludge rather than commercial fertilizer gave a higher crude protein content only at the 360-156-40 rate. In vitro dry matter digestibility was significantly lower at the medium and high sludge rates. All other treatments were not significantly different. Total Zn levels in forage from all sludge treatments were relatively uniform. Cr concentration was highest in the medium sludge rate and was lowest with the highest rate of commercial fertilizer among plots treated with supplemental nutrients. Hg concentration did not vary with nutrient source. Cu concentrations were generally twice as high in sludge-treated compared to conventionally fertilized forage. In no case did the metal concentration pose a threat to grazing animals.     

毛竹入侵对常绿阔叶林主要树种的化感作用研究

为探讨毛竹入侵对周边森林环境的影响,以毛竹浸提液处理苦槠、青冈种子,测定种子萌发效应.结果表明,两树种种子萌发与浸提液浓度和来源有关.浓度效应表现为高抑低促的作用规律,高浓度处理下苦槠的发芽率为对照的82.3%~102.2%,青冈为对照的80%~90.9%,而低浓度处理下分别为对照的101.7%~107.6%和94.9%~109.1%.除低浓度处理对苦槠发芽速度无影响外,其他处理均对两树种发芽速度有显著的延缓作用(P<0.05).高浓度浸提液对苦槠根系活力有显著的抑制作用(P<0.05),抑制率为41.1%~62.4%.不同来源浸提液处理间差异明显,根系浸提液处理的种子发芽率最低.苦槠芽苗的芽长与不同来源浸提液间差异不显著(P>0.05),而青冈芽苗芽长与不同来源浸提液间差异显著(P<0.05),茎叶、根系与枯落物浸提液高于土壤浸提液.这些结果说明毛竹具有潜在的化感作用,可能有利于其入侵周边森林,从而危害周边森林环境.     

不同磷石膏添加量与接种菌根对玉米生长及磷、砷、硫吸收的影响

通过盆栽模拟试验研究了不同磷石膏（PG）添加量（0、20、40g·kg-1）和接种3种丛枝菌根真菌（Glomus mosseae（GM）、Glomus aggregatum（GA）、Diversispora spurcum（DS））对玉米生长及其磷、硫、砷吸收的影响.试验结果表明：随磷石膏添加量的提高,土壤有效磷、有效...     

Expansion of Calamagrostis villosa in sub-alpine Nardus stricta grassland: Cessation of cutting management or high nitrogen deposition?

Calamagrostis villosa has recently expanded in Nardus stricta-dominated sub-alpine grassland of the Giant Mountains (Krkono?e/Karkonosze, the Czech Republic). To investigate whether this expansion has been promoted by high nitrogen deposition or by the cessation of agricultural management, grassland plots dominated by C. villosa were manipulated with four treatments: control (Con), fertilised (Fer), cut (Cut) and cut–fertilised (Cut–Fer). NH₄NO₃ was used at the rate of 30 kg N ha^?1 and fertilisation and cutting were performed once a year after data collection in late July between 2000 and 2006.Plant species composition (analysed by RDA) was significantly influenced by cutting but not by fertilisation. Cutting reduced the cover, biomass, sward height and tiller density of C. villosa. Seedlings of N. stricta and panicles of C. villosa were recorded only in plots with cutting management.To investigate the effect of treatments on the spread of C. villosa, grassland sods dominated by N. stricta were transplanted into the experimental plots. Six years later, the density and cover of C. villosa spreading into the N. stricta sods were highest in Fer treatment.C. villosa was recognised as a defoliation-sensitive species and this sensitivity cannot be overcome by an increase in N supply. Recent expansion of C. villosa in the sub-alpine grassland can by explained by a long-term succession after the cessation of agricultural management and an increase in the N availability in recent decades.     

不同供磷水平对四种超富集植物生长及吸收重金属的影响

本论文通过水培试验研究了以KH2PO4作为磷(P)源在不同浓度(0~45.52 mg·L-1)和以Ca3(PO4)2作为磷(P)源在22.76 mg·L-1对Zn/Cd超富集植物东南景天Sedum alfredii、Zn/Cd/Ni超富集植物遏蓝菜Noccaea caerulescens(两个品种)和Ni超富集植物庭荠属Alyssum murale在20 mg·L-1(Zn)、18 mg·L-1(Ni)、10 mg·L-1(Pb)和0.5 mg·L-1(Cd)胁迫下的生长和吸收重金属的影响.试验结果表明严重缺磷的无磷和磷酸钙源处理显著抑制了这些超富集植物的生长,但4种超富集植物的地上部生物量在11.38、22.76、45.52 mg·L-13个磷水平处理之间均无显著差异.正常营养液的供磷水平(22.76 mg·L-1),S.alfredii对Zn/Cd和N.caerulescen 1号对Zn/Cd/Ni的吸收累积达到最大值,而高浓度的磷素供应(45.52 mg·L-1)显著抑制了这两种植物对相应元素的吸收;A.murale对Ni/Cd/Pb的吸收累积均在高浓度的磷素供应(45.52 mg·L-1)获得最大;增加磷的供应对N.caerulescen 1号吸收累积Zn/Ni/Cd/Pb产生了不同的效应.这些超富集植物提取重金属的最佳供P水平因植物种类而不同.     

温带典型草原土壤总有机碳及溶解性有机碳对模拟氮沉降的响应

2008年5月～2011年10月,以内蒙古温带典型草原为研究对象,利用小区模拟控制试验,设置对照[0 g·(m2·a)-1]、低氮[5 g·(m2·a)-1]、中氮[10 g·(m2·a)-1]、高氮[20 g·(m2·a)-1]这4个净氮输入量处理,模拟研究了大气氮沉降水平变化对土壤总有机碳(TOC)以及溶解性有机碳(DOC)含量、年际变化及其垂直分布格局的影响,并分析了两者之间的关系.结果表明,除个别年份外,土壤TOC与DOC含量均随土壤深度增加而递减,4 a的连续施氮并未改变土壤TOC与DOC的垂直分布规律,但施氮降低了土壤TOC的垂直变异,增加了土壤DOC的垂直变异;施氮4 a对于草地表层0～20 cm土壤TOC与DOC含量的变化并未表现出显著影响(P>0.05).不同氮输入水平处理0～20 cm土层有机碳密度在3.9～5.6 kg·m-2之间变动,试验前两年不同氮处理0～20 cm土壤有机碳密度均低于对照或与对照接近,试验后两年,施氮对土壤总有机碳密度逐渐呈现出一定的促进作用,但与对照的差异仍不显著(P>0.05);不同处理0～20 cm土层DOC/TOC约为0.32%～1.09%,氮输入增加普遍降低了DOC在整个TOC中所占的比例;草地土壤TOC与DOC的变化呈显著正相关(P<0.01).不同处理草地土壤DOC随时间的变异均远大于TOC,与TOC相比,草地土壤DOC的变化更为迅速,是研究草地土壤碳库对氮沉降变化响应的重要敏感性指标.     

废弃尾矿库15种植物对重金属Pb、Zn的积累和养分吸收

在废弃的铅锌尾矿库进行人工植被恢复试验.对3年生15种植物重金属积累和养分吸收特性的研究表明,植物对土壤重金属和养分的吸收积累因植物种类、部位、金属种类和种植时间的不同而有显著差异.树木不同器官Pb质量浓度高低的总趋势为根〉叶〉茎,部分树种Zn质量浓度表现为叶〉根和茎;在15种参试植物中,加拿大紫荆根系Pb和Zn质量浓度均处于最高水平（分别为1 803 mg.kg-1和2 120 mg.kg-1）,盐肤木具有最高的茎枝Pb、叶片Pb和Zn质量浓度（分别为280、546和1 507 mg.kg-1）,旱柳具有最高的茎枝Zn质量浓度（729 mg.kg-1）和较高的叶片Zn质量浓度（1 153 mg.kg-1）.枫香、紫花苜蓿对Pb,旱柳、盐肤木、紫花苜蓿对Zn的转移系数TF值均〉1.植物Pb的富集系数BCF值均小于0.17,旱柳、盐肤木、紫花苜蓿Zn的BCF值达0.37～0.43.固氮植物体内N含量显著高于其它植物,火炬树、臭椿对P和夹竹桃对K的吸收积累能力强.随着种植时间的增加,植株体内有重金属质量浓度增加、营养元素含量下降的趋势.盐肤木、旱柳等重金属积累树种及紫穗槐、紫花苜蓿、截叶胡枝子、桤木等固氮植物在铅锌尾矿治理中具有应用前景.     

咸水滴灌对棉田土壤N2O排放和反硝化细菌群落结构的影响

淡水资源短缺是干旱区农业可持续发展所面临的严峻问题,合理利用咸水灌溉是缓解淡水资源不足的重要手段.长期咸水灌溉会导致土壤盐分积累,进而影响氮素的转化和N_2O的排放.本研究通过10 a咸水灌溉试验,探究咸水灌溉对棉田土壤N_2O排放、反硝化细菌丰度和群落结构组成的影响.试验采用灌溉水盐度和施氮量两因子2×2随机区组设计,其中灌溉水盐度(以电导率表示)设置2个水平:0.35 dS·m~(-1)和8.04 dS·m~(-1),施氮量设2个水平:0 kg·hm~(-2)和360 kg·hm~(-2)(分别用SFN0、SHN0、SFN360和SHN360表示).结果表明,长期咸水滴灌棉田土壤盐分、含水量和NH~+_4-N含量显著增加,pH值、NO~-_3-N、有机质和全氮含量显著降低.咸水灌溉处理显著抑制N_2O排放,不施氮肥和施氮肥处理下分别较淡水灌溉降低45.19%和43.50%.氮肥施用显著增加N_2O排放,施肥处理N_2O排放较不施肥处理增加161%.不施肥条件下,咸水灌溉显著降低反硝化酶活性、nirK、nirS和nosZ基因丰度,α多样性.施肥条件下,咸水灌溉对nosZ型反硝化细菌的丰度无显著影响,但显著降低反硝化酶活性和nirK、nirS基因丰度.咸水灌溉和氮肥施用共同改变nirK、nirS和nosZ型反硝化细菌群落结构,灌溉水盐度对于反硝化细菌群落结构的影响要大于施肥.Lefse分析显示nirK、nirS和nsoZ型反硝化细菌差异物种随着灌溉水盐度的增加而增加,咸水灌溉显著改变反硝化细菌群落结构,导致优势种群数量增加.上述结果表明,长期咸水灌溉降低土壤N_2O排放,但会导致土壤盐分的持续上升,nosZ、nirK和nirS丰度的增加会促进N_2O排放.     

磷肥对砷污染土壤的植物修复效率的影响:田间实例研究

通过田间试验研究施用磷肥对砷超富集植物蜈蚣草(PterisvittataL.)生长和砷污染土壤修复效率的影响.结果表明,适量施用磷肥促进蜈蚣草的生长,显著提高其生物量,但过量施用磷肥对植物产量无贡献.随着磷肥施用量的增加,蜈蚣草地上部砷含量呈先增加后减少的趋势,理论上在施磷量为340kg·hm-2时,砷含量可达最高(1622mg·kg-1).磷的含量与施磷量呈极显著的正相关关系.施磷量为200kg·hm-2的砷累积量最高,是不施磷处理砷累积量的2 4倍及600kg·hm-2施磷量砷累积量的1 2倍.种植蜈蚣草7个月后,土壤总砷均有不同程度的下降,施磷量为200kg·hm-2的土壤中砷含量下降5 0mg·kg-1,土壤修复效率最高(7 84%).对照和600kg·hm-2施磷量处理的土壤修复效率分别为2 31%和6 63%.理论上达到最大土壤修复效率所需施磷量为369kg·hm-2.施用磷肥可以维持土壤有效态砷含量在蜈蚣草种植前后变化不大,保证蜈蚣草下个生育期对砷的吸收.这些结果说明施用磷肥是蜈蚣草等砷超富集植物在现场修复中的必要手段,优化施磷技术可大大提高砷污染土壤的修复效率.     

脱硫石膏对酸化森林土壤短期修复效果的研究

以电厂脱硫石膏为修复剂,选取重庆铁山坪地区典型的酸化森林土壤为修复对象,进行了为期1 a的修复效果研究.对不同土层土壤溶液pH值、主要阴阳离子和重金属浓度的动态变化展开观测,并对土壤和脱硫石膏的重金属含量进行分析,以评价脱硫石膏的修复效果及存在的风险.结果表明,与对照样地相比,修复样地各层土壤溶液Ca2＋和SO24-的浓度随时间依次升高,pH值也略有上升,且年均n（Ca）/n（Al）摩尔比从2.16、1.35和0.88升高到2.58、1.52和1.12.土壤溶液中As、Cu、Cr、Ni和Zn的浓度并未检测到明显上升,只是Cr、Ni和Zn在土壤上层出现了轻微富集.脱硫石膏的处理对酸化土壤起到了改良作用,且未造成土壤溶液重金属浓度明显的升高,但重金属在土壤层的积累会造成潜在的风险,需要进一步开展研究.     

河流沉积物中有机磷提取剂(NaOH-EDTA)提取比例与机制研究

选择海河流域高磷污染河流滏阳新河沉积物为研究对象,利用液相31P核磁共振(31P-NMR)技术优化了沉积物中有机磷提取剂NaOH和EDTA的配比,探讨了提取剂对总磷(TP)、有机磷(P o)及金属离子的提取机制.结果表明,不同配比的NaOH和EDTA提取液提取同一沉积物,所提取的TP和P o的量差异较大,但P o的提取量均高于NaOH单独提取,主要原因为EDTA与Fe、Al等离子的结合促进了无机磷(P i)和P o的释放;TP在1.00 mol·L-1NaOH+75 mmol·L-1EDTA配比的提取液中获得最大提取量,为3.88 mg·g-1,P o在0.25 mol·L-1NaOH+50 mmol·L-1EDTA配比的提取液中提取量最大,为0.24mg·g-1;相同浓度NaOH提取液中金属离子Fe、Mn、Ca、Mg、Al提取量随EDTA浓度增大呈升高趋势,主要是通过螯合作用、金属离子与OH-形成化合物实现.其中,Fe、Mn、Ca提取浓度与提取液pH呈显著负相关(P<0.01),说明其与OH-形成沉淀化合物;Al离子由于既可以与OH-生成可溶性的偏铝酸盐又可以被EDTA螯合形成可溶性络合物,因此其浓度随提取液pH升高呈指数增长趋势(P<0.01);NaOH与EDTA混合提取剂核磁共振图谱优于NaOH提取液,在本研究中均可以检测到膦酸盐、正磷酸盐、磷酸单酯、磷脂、DNA和焦磷酸盐.综合考虑:对北方河流富含Fe和Al的河流沉积物,0.25mol·L-1NaOH与50 mmol·L-1EDTA可以作为理想的沉积物有机磷提取剂.     

添加剂对伴矿景天修复石灰性铅冶炼污染土壤的影响

为了探讨利用伴矿景天(Sedum plumbizincicola)修复北方重金属污染土壤的可行性,在河南省某铅冶炼形成的污染农田(全镉、铅和锌含量分别为2.65、261和130 mg·kg-1)上种植种子苗或扦插苗伴矿景天,并设对照(CK)、单独尿素(U)、尿素和单质硫(U+S)、尿素与鸡粪(U+CM)配合处理,生长7个月后采样分析.结果表明,种子苗产量比扦插苗高45.8%~162.0%,U、U+CM处理产量均明显高于CK,而U+S处理产量有所下降.种子苗地上部镉含量比扦插苗高15%~99%(p0.05),多数处理铅和锌含量也是种子苗高于扦插苗.与CK相比,各处理措施均导致伴矿景天地上部镉和铅含量下降,而U+S、U+CM处理均导致伴矿景天地上部锌含量上升.从伴矿景天地上部重金属积累量判断,与CK相比,对于镉,仅种子苗U+CM处理镉积累量有所上升;U处理种子苗和扦插苗地上部锌积累量分别比CK上升43.5%和32.3%,两种苗U+S处理锌积累量比CK分别上升11.1%和22.3%.种子苗和扦插苗地上部镉的积累量分别为137~178 g·hm-2和43.7~64.8 g·hm-2,锌的积累量分别为297~1042 g·hm-2和162~326 g·hm-2,两类苗对铅的积累量小于28.8 g·hm-2.U+CM处理对伴矿景天地上部锌吸收的促进作用主要是由于鸡粪中含有大量的有效锌.以上结果表明,可利用种子苗伴矿景天结合尿素的施用对铅冶炼污染石灰性土壤进行修复.     

铅低积累大豆的筛选及铅对其豆中矿物营养元素的影响

筛选和培育铅低积累作物品种已被用来降低铅流入到人们的食物链中.本实验采用盆栽方法,研究了16个选定的大豆品种在两个铅处理(500和1500 mg·kg-1)下的生长反应,并评估其对铅的耐性.结果表明,在两个铅处理(500和1500 mg·kg-1)下,大豆中Pb含量有显著差异(p0.05),其平均值分别为0.19和0.27 mg·kg-1.在两种Pb梯度处理下富集系数的范围分别为0.003~0.014和0.002~0.012.16种大豆品种的富集系数在两种Pb梯度处理下均小于0.02,且存在显著差异(p0.05),表明大豆吸收的Pb主要积累在根部.大豆品种:垦丰16号、绥农28号、中黄35号和黑河35号被发现符合低铅积累大豆品种的标准.这4个品种的大豆被进一步用于评估Pb和其他矿质营养元素之间的相互作用,如Ca、Cu、Fe、Mg、Mn和Zn.土壤中Pb含量会影响大豆对微量矿物营养元素的吸收,表现为土壤中高剂量Pb能抑制大豆对Ca、Cu、Fe、Mg和Zn的吸收,同时增加其对Mn的吸收和积累.     

水体氮磷浓度对两种沉水植物上附着藻类的影响

为了了解富营养化进程中湖泊水体氮、磷浓度升高对不同沉水植物上附着藻类的影响,通过室内模拟实验,设置3组不同氮磷浓度,研究了常见的沉水植物苦草(Vallisneria natans(Lour.)Hara)和狐尾藻(Myriophyllum spicatum L.)上附着藻类生物量及其种群组成.结果表明,附着藻类生物量随水体氮、磷浓度的升高呈显著增加的趋势;狐尾藻上附着藻类生物量均高于苦草,且随富营养化水体氮、磷浓度升高差距越来越大.不同沉水植物上藻类群落组成均以硅藻门、蓝藻门及绿藻门占优势,但优势藻组成和优势藻数量存在差异.研究结果不仅丰富了淡水水体附着藻类生态学的理论知识,也可为富营养化湖泊生态修复过程中沉水植物群落的构建提供一定的理论依据.     

Long-term dynamics of biomass production, soil chemical properties and plant species composition of alluvial grassland after the cessation of fertilizer application in the Czech Republic

The resilience, the ability of an ecosystem to recover after termination of perturbation, of highly productive Alopecurus grassland was investigated after the cessation of the following long-term fertilizer treatments applied under a two- or three-cut management regime: unfertilized control, PK, N₁₀₀PK, N₂₀₀PK, N₃₀₀PK and N₄₀₀PK. Annual application rates of pure nutrients per hectare were 0–400 kg for N, 40 kg for P and 100 kg for K. The dynamics of biomass production were measured for 16 years and the effect of former fertilizer treatments on soil chemical properties, biomass chemical properties, plant species composition and species richness were investigated 16 years after the last application of fertilizers. It was concluded that 16 years was not long enough to achieve resilience in plant-available soil P and K concentrations, N/P ratios in the plant biomass or plant species composition, but that it was long enough to achieve resilience in species richness. In the case of biomass production the effect of former fertilizer treatments was apparent in 10 of the 16 seasons investigated, indicating that resilience in biomass production must be evaluated using data from more than 1 vegetation season. The results of the study stress the necessity for long-term research because of high year-to-year variability in biomass production as well as long-term after-effects of fertilizer treatments in alluvial grassland.     

刚毛藻分解对上覆水磷含量及赋存形态的影响

在荣成天鹅湖刚毛藻暴发区域采集新鲜沉积物和刚毛藻进行室内模拟试验,定期监测上覆水中溶解氧(DO)、pH和电导率等理化参数,分析水体总磷(TP)、可溶性总磷(DTP)、可溶性磷(SRP)、溶解性有机磷(DOP)和颗粒态磷(PP)的含量变化,并探讨了刚毛藻分解对沉积物磷释放的影响.结果表明,刚毛藻分解过程中上覆水DO含量明显降低,其中30 g藻+水+沉积物处理基本维持在厌氧状态(0～0.17 mg·L-1);各处理水体pH值略有降低,加藻处理约降低了1个单位.刚毛藻分解使上覆水总磷及各形态磷含量大幅上升,且随藻量的增加,上升幅度变大,其中TP含量变化在0.04～1.34 mg·L-1之间.藻+水处理上覆水中磷的形态以DOP和PP为主,而藻+水+沉积物处理SRP含量明显升高.结果说明,刚毛藻分解过程中自身可释放大量的磷,且释放形态以PP和DOP为主;另一方面,藻类分解可明显促进沉积物中磷的释放,从而使得上覆水SRP含量大幅增加.     

平衡施肥与秸秆覆盖对紫色土坡耕地养分及其化学计量的影响

为探究长期平衡施肥和秸秆覆盖对紫色土坡耕地土壤养分及其化学计量比的影响,以垫江县长期农田氮磷流失监测点为研究样地,设置3个处理：常规模式（CK）、平衡施肥模式（M1）和平衡施肥+秸秆覆盖模式（M2）,每个处理各设3个重复,共建立9个小区（长7 m×宽3 m）,并于2018、2019和2020年采集土样,研究不同处理下碳（C）、氮（N）、磷（P）和钾（K）含量及其化学计量变化特征.结果表明,2018年不同处理之间K含量差异显著,大小顺序为：CK>M2>M1;2019年不同处理之间硝态氮（NO₃^--N）、铵态氮（NH₄⁺-N）含量差异显著,表现为：M1>M2>CK;其他养分含量在同一年份不同处理之间差异均不显著.不同年份间各处理的土壤C和N含量差异不显著.2018年各处理中K含量均显著高于其他年份,其中,2018年的CK、M1和M2分别比2019年和2020年高78.26%和98.79%,19.13%和35.4%,54.49%和41.76%.P含量在CK和M2处理中均随着年份增大而减小,且2018年分别比2019年高20.29%和10.67%,比2020年高39.68%和17.33%.各处理不同年份间速效钾（AK）含量无显著差异,而NO₃^--N和NH₄⁺-N和速效磷（AP）含量差异显著,且均在2020年最高.土壤C ：P、C ：K、N ：P、N ：K和P ：K在不同年份间都表现出显著差异（P<0.05）.土壤C ：K、N ：K和AN ：AP分别于2018年和2019年在不同施肥模式间差异显著（P<0.05）.土壤C与N及P与K之间呈显著的线性正相关;土壤C ：K与C ：P、N ：K、N ：P和P ：K之间,N ：K与C ：P、P ：K和N ：P之间,N ：P与C ：P之间都呈显著的线性正相关;土壤P与C ：K和N ：K之间呈显著的线性负相关.土壤NO₃^--N与NH₄⁺-N、AN ：AP和AN ：AK之间,NH₄⁺-N与AN ：AP和AN ：AK之间,AP与AK和AP ：AK之间,AN ：AP与AN ：AK之间都呈极显著正相关.研究发现平衡施肥+秸秆覆盖是紫色土坡耕地较为适宜的管理模式.     

Community structures and population dynamics of “Candidatus Accumulibacter” in activated sludges of wastewater treatment plants using ppk1 as phylogenetic marker

Candidatus Accumulibacter has been identified as dominant polyphosphate-accumulating organisms(PAOs) in enhanced biological phosphorus(P) removal(EBPR) from wastewater.This study revealed the relevance of community structure, abundance and seasonal population dynamics of Candidatus Accumulibacter to process operation of wastewater treatment plants(WWTPs) in China using ppk1 gene as phylogenetic marker. All sludge samples had properties of denitrifying P removal using nitrate as an electron acceptor.Accumulibacter abundance in the anaerobic-anoxic-oxic(A~2O) process was the highest(26%of total bacteria), and higher in winter than in summer with a better EBPR performance.Type-II was the dominant Accumulibacter in all processes, and type-I accounted for a small proportion of total Accumulibacter. The abundance of Clade-IIC as the most dominant clade reached 2.59 × 10~9 cells/g MLSS and accounted for 87.3% of total Accumulibacter. Clade IIC mainly contributed to denitrifying P removal. Clades IIA, IIC and IID were found in all processes, while clade-IIF was only found in oxidation ditch process through phylogenetic analysis. High proportion of clade IID to total Accumulibacter led to poor performance of aerobic P-uptake in inverted A~2O process. Therefore, Accumulibacter clades in WWTPs were diverse, and EBPR performance was closely related to the clade-level community structures and abundances of Accumulibacter.     

不同氮磷比条件下绿球藻对猪场污水的净化效率

采用添加NaH_2PO_4的方法调节猪场污水中氮磷比(N∶P)分别为8∶1、16∶1、32∶1和64∶1,以未添加NaH_2PO_4的污水为对照(氮磷比为532∶1),探讨一株耐污绿球藻(Chlorococcum sp.)在不同氮磷比污水中的生长性能及其对猪场污水(初始氨氮浓度为291.31 mg·L~(-1))的净化效果.结果表明:经过12 d的培养,绿球藻(接种密度为400×104cells·m L~(-1))在N∶P为64∶1的污水中生长最好,且对污水中氨态氮和总氮的去除效果最佳,细胞密度和生物量分别为3393×104cells·m L~(-1)和0.49 g·L~(-1),对氨态氮和总氮的去除率分别为74.94%和48.78%,显著高于对照组,氨态氮浓度降低到73.01 mg·L~(-1),总氮浓度降低到148.96 mg·L~(-1).培养期间各试验组污水中硝态氮浓度均升高.培养12 d后,N∶P为64∶1组污水中总磷浓度降低为3.07 mg·L~(-1),去除率为71.86%.综上,绿球藻在N∶P为64∶1的污水中生长性能及其对污水中氨态氮和总氮的去除效果均最佳,可使污水中的氨态氮和总磷浓度基本达到相关排放标准.     

Residual benefits of promiscuous soybean to maize (Zea mays L.) grown on farmers’ fields around Minna in the southern Guinea savanna zone of Nigeria

Biological nitrogen fixation (BNF) by promiscuous cultivars of soybeans (Glycine max (L.) Merr.) in cereal-based cropping systems of Nigeria’s moist savanna zone offers a potential for minimizing the investment made by resource-poor farmers on nitrogen fertilizers. A 3-year trial was conducted on five farmers’ fields in the southern Guinea savanna zone of Nigeria to assess the residual effects of two successive crops of promiscuous soybean cultivars on the yield of a following maize (Zea mays L.) crop. The soybean cultivars, TGX1456-2E (medium maturity) and TGX1660-19F (late maturity), were grown in 1996 and 1997. Treatments, imposed only in the first year of the trial, were: (i) uninoculated, (ii) inoculated with a mixture of two Bradyrhizobium strains, and (iii) fertilized with 60 kg N ha⁻¹. A fourth treatment was a plot left to fallow. In 1998, all the previous soybean and fallow plots were sown to maize without any fertilizer application. Results in 1996 and 1997 showed a soybean response to inoculation in the first year, but differences due to the residual effect of inoculation in the second year were not significant. Both cultivars showed a similar response to inoculation but responses at the five sites were varied. Soybean cultivar 1456-2E fixed 43–52% of its N amounting to 56–70 kg N ha⁻¹ and cultivar 1660-19F derived 39–54% of its N from N₂-fixation which amounted to 51–78 kg N ha⁻¹. Both cultivars had a high N harvest index resulting in a net removal of 52–95 kg N ha⁻¹ when both grain and stover were exported. Even when the stover was returned, there was a depletion of 23–65 kg N ha⁻¹, with 1456-2E removing more N than 1660-19F. Arbuscular-mycorrhizal infection on maize roots was 11–27% and dependent on previous soybean treatments and farmers’ fields. Plant height, shoot biomass, grain yield, and N uptake of maize were significantly greater in plots previously sown to soybean than in the fallow plots. In general, plots sown to the late maturing cultivar 1660-19F exhibited better residual effect, producing larger yield parameters than the plots planted with medium maturing 1456-2E.