含硫及含氯化肥对作物生长发育的影响与农田生态学效应

本文对水田阳离子肥料长期定位试验进行了观察和总结．研究表明，湘南水田长期施用含硫及含氯化肥对水稻生长的影响随年度和季节变化：ＳＯ肥料促进早稻返青和晚稻营养生长，Ｃｌ肥料提高晚稻经济产量．从１９８２年到１９９０年，水稻稻谷年产量随气候变化有两次明显的波降周期，并且九年间，两类阴离子肥料处理的水稻年均总干物质生产量相等，绿肥生长也无显著不同．然而，长年施用含硫及含氯化肥的小区具有明显的土壤生态学差异．     

含硅熔渣对水稻养分吸收及产量的影响

采用盆栽试验方法，研究了不同含硅熔渣对水稻养分的吸收和产量的影响，结果表明，在施用氮、磷、钾肥的基础上，增施不同类型的含硅熔渣，可提高水稻中硅和磷的含量，降低根系、茎叶和籽粒中的氮、钾含量，增加水稻对氮、磷、钾、硅的总吸收量。不同含硅熔渣的增产效果差异较大，增产最显著的是铁渣和黄磷炉渣，分别比对照增产43．4％和31．6％，施用含硅熔渣的各处理比对照平均增产19．1％，各处理间的产量经方差分析和多重比较达显著或极显著差异水平。扩散方程、Elovich方程和多项式方程均能很好地描述水稻生长期内水稻对N、P、K、Si的吸收过程，尤以多项式方程拟合最佳。     

土壤中铜、砷对水稻生长发育影响的研究

通过田间小区试验，研究了广州近郊冲积土添加重金属铜、砷对水稻生长发育的影响．结果表明，随着铜、砷浓度的增加，水稻的株高、生物产量和经济产量均明显下降；铜、砷在水稻各器官的含量分布是根＞茎叶＞糙米；糙米对铜、砷的吸收累积量很少，均未超过食品卫生标准．若以产量下降10％作为水稻受害的临界点，则铜的临界浓度为100mg／kg，砷为30mg／kg．     

亚热带和温带生态条件下水稻生长速率和产量的相关性研究

在亚热带生态环境下的云南省宾川县和温带环境下的韩国水原市,2002和2003年对中国和韩国筛选出的4个水稻（Oryza sativa）高产品种进行了生长速率和产量的相关性研究,结果表明：在亚热带和温带的两种生态条件下水稻品种的叶面积指数和收获指数相近,但亚热带生态条件下实际产量和生长速率分别比温带条件下高3．06t·hm^-2和7．09g·m^-2·d^-1,产量高50．75％和生长速率高58．22％,差异达极显著水平。在亚热带条件下,移栽到移栽后20d、孕穗到抽穗的生长速率的增加能极显著提高水稻产量,以移栽到移栽后20d的生长速率影响最大,抽穗后20d生长速率的增加能增加水稻产量,但不显著。在施肥比例,基肥：分蘖肥：孕穗肥：穗肥：O％：50％：30％：20％的氮肥施用方式和稀植（30cmx14cm）条件下获得该生态区的最高产量和最大生长速率,分别为9．26t·hm^-2、19．53g·m^-2·d^-1;在温带条件下,移栽到抽穗的生长速率的增加能显著提高水稻产量,以移栽后21d到孕穗的生长速率影响最大,抽穗后20d生长速率的增加反而减低水稻产量,但不显著,氮肥施用方式基肥：分蘖肥：孕穗肥：穗肥=50％：20％：30％：0％和密植（20cm×14cm）条件下获得该生态区的最高产量和最大生长速率,分别为6．31t·hm^-2、12．00g·m^-2·d^-1。     

盐渍水灌溉条件下水稻的生产量及化学成分

用沿海盐碱土进行的“花盆”试验表明,水稻在分蘖和开花的早期阶段对盐渍水灌溉非常敏感。水稻在生长早期阶段用盐渍水灌溉后是严重的,经常用盐渍水灌溉,不论其盐碱度如何,都会缩短水稻的生长期、减少产量和禾杆中氮、磷、钾的成份。在水稻生长的后期阶段用盐水灌溉较为适应。     

镉对不同基因型水稻生长毒害影响的比较研究

利用水培分期添加镉试验，研究了杂交水稻和常规水稻在不同生育时期对环境镉毒害的反应。结果表明，在水稻幼穗分化之前，镉主要降低光合生产力，影响植株生长；幼穗分化至抽穗期，主要抑制生殖器官分化，造成颖花败育；抽穗期之后，镉主要干扰体内营养物质的迁移和再分配。就对产量影响而言，幼穗分化至抽穗期是水稻对镉反应最敏感时期，杂交稻比常规稻对镉污染毒害敏感。     

水热及裂解生物炭对水稻产量及氮素利用率的影响

将生物质(锯末)分别在高温裂解(500℃)和水热炭化(260℃)条件下制备得到裂解生物炭(PSBC)和水热生物炭(HSBC),采用土柱试验方法对比PSBC和HSBC在不同施加量(w=0.5%,w=3%)条件下对水稻生长、产量及氮素利用效率的影响。结果表明,PSBC-0.5%和HSBC-0.5%处理对水稻产量无显著影响(P0.05),PSBC-3%处理对水稻产量和生长的影响较小;而HSBC-3%处理则导致水稻产量下降64.73%,且主要对产量因子中的每穗总粒数和结实率产生负面影响。水稻氮素利用效率分析表明,与施氮对照(CKU)相比,PSBC-0.5%处理水稻籽粒吸氮量、氮肥吸收利用率和农学效率分别提高23.68%、57.46%和1.86%;而HSBC-3%处理显著抑制水稻生长,籽粒吸氮量比CKU降低67.46%,氮肥吸收利用率和农学效率则呈负值。研究表明,高施加量HSBC对水稻生长有显著负面影响,而低施加量HSBC对水稻生长影响不显著。因此,在将水热炭应用于农田时,需严格控制其施用量或对水热炭进行改良,提高其生物兼容性,防止对农业生产造成不利影响。     

镉对不同基因型水稻生长毒害影响的比较研究

利用水培分期添加镉试验，研究了杂交水稻和常规水稻在不同生育时期对环境镉毒害的反应。结果表明，在水稻幼穗分化之前，镉主要降低光合生产力，影响植株生长；幼穗分化至抽穗期，主要抑制生殖器官分化，造成颖花败育；抽穗期之后，镉主要干扰体内营养物质的迁移和再分配。就对产量影响而言，幼穗分化至抽穗期是水稻对镉反应最敏感时期，杂交稻比常规稻对镉污染毒害敏感。     

磁性肥料及其对水稻生长的影响研究

磁性肥料能明显促进水稻的生长和提高生物产量，在以广州发电厂的粉煤灰为主要磁性物质时，对赤红壤和水稻来说，其磁性肥料磁处理的最佳磁感应强度是０．２２Ｔ．     

土壤中镉铜复合污染对水稻生长效应影响

本文通过盆栽试验研究土壤中镉铜复合污染对水稻生长效应的影响,并探讨了有效态铜、镉的提取剂。结果表明,2.5％醋酸可作为酸性水稻土有效态铜、镉的提取剂,土壤含镉5mg/kg对铜的水稻产量效应未有影响,但糙米含镉量超标。     

Effect of sewage water on the growth and yield parameters of wheat and blackgram with different fertilizer levels

Impact of biologically treated domestic sewage water was studied on the growth and yield attributing characters of wheat and blackgram under different fertilizer levels in the field condition. There was no significant difference on the yield and yield attributing characters of wheat. However, yield attributing characters like number of tillers/plant, panicle length (cm), number of grains/panicle and 1,000 grain weight showed increasing trend to the tune of 13.29, 1.59. 5.49 and 3.79 per cent respectively over the tubewell irrigated crop. Yield was also increased to the tune of 3.63 per cent when the crop was irrigated with sewage water. Interactions between irrigation and fertilizer levels were also insignificant. However, sewage water with N60P45K45 responded better on tillering, panicle length, number of grains/panicle and yield of wheat. In case of blackgram, treated sewage water had no significant effect on the grwoth and yield attributing characters, rather sewage water had some negative effect on these parameters. Interactions between irrigation and fertilizer levels were insignificant. But tubewell irrigation with N10P10K10 was more responsive on growth parameters. When the crop was grown with tubewell irrigation and without fertilizer, yield attributing characters were more positively responded.     

污灌区土壤-小麦系统重金属污染、迁移和积累--以开封市化肥河污灌区为例

以开封市化肥河污灌区为例，研究了土壤-小麦系统重金属(Cd、Pb、Cr、Cu、Zn、Ni和AS)污染、迁移和积累规律。结果表明，该区土壤重金属污染较为严重，所有样点的综合污染指数均大于1，其中Cd和AS污染最为严重，其平均质量分数远远超出了土壤环境二级标准值。在该区土壤上种植的小麦也表现出一定程度的重金属累积，但其茎叶和种子重金属质量分数差别较大；在所有种子样品中，Zn质量分数都未超标，AS、Cr和Pb质量分数部分到达了较高的残留水平，Cd质量分数则远远超出了国家食品限量卫生标准。依据重金属迁移累积率(βi)，小麦对As和Cr的吸收能力较低，而对Ni和Cd的吸收能力较高；在所有小麦样品中，除Cu外，茎叶对同一重金属的平均富集能力均大于种子。     

覆盖旱作水稻的生物效应及吸氮特征

研究了田间条件下旱作水稻半腐解秸秆覆盖、蚕豆秆覆盖、地膜覆盖、纸膜覆盖、生稻草覆盖 5种覆盖方式的吸氮特征 ;水稻水作与旱作的产量及其构成因素 ;水稻水作与旱作条件下灌溉水的利用效率。结果表明 ,旱作条件下水稻各部位的含氮量均大于水作 ;旱作水稻的氮素吸收、累积主要在拔节期以后 ,而水作水稻从移栽后就大量吸收氮素 ,灌浆期后很少吸收氮素 ;旱作水稻的产量以半腐解覆盖处理的最高 ,为 8415kg/hm2 ;旱作水稻耗水量只占水作耗水量的 7 14% ,旱作水稻的水分利用效率是水作的 12倍以上     

水稻灌浆期臭氧暴露对产量形成的影响

利用田间原位开顶式气室(Open-topchamber,OTC)研究了长江三角洲地区水稻灌浆期臭氧(O3)暴露对其产量形成的影响,从而确定灌浆期臭氧胁迫对水稻产量的影响.实验设计4种臭氧水平,即过滤空气(CF,O3浓度10nL·L-1);自然大气(NF,O3浓度40nL·L-1);臭氧动态1(O1,O3梯度为50、100、150nL·L-1,平均浓度70nL·L-1);臭氧动态2(O2,O3梯度为75、150、300nL·L-1,平均浓度170nL·L-1).结果表明,随着臭氧浓度的升高,水稻的株高、穗长、分支、穗粒数及水稻生物量和产量等指标均有下降的趋势,但4种处理间均无显著性差异(p>0.05).在试验浓度下,水稻灌浆期短期高浓度O3暴露对其产量没有显著影响,不会造成明显的产量损失,但与全生育期相比,水稻产量对灌浆期的高臭氧浓度更为敏感.     

不同来源重金属污染的土壤对水稻的影响

采用人工污染土壤、尾矿砂、污泥等不同载体的污染源来模拟土壤污染 ,研究其对水稻生长、吸收养分和吸收重金属的影响。结果表明 ,不同污染载体对水稻生长的影响不同 ,其影响的大小顺序为人工污染土壤 >尾矿砂 >污泥 >尾矿砂 +污泥。不同污染载体对水稻吸收重金属的影响亦不同 ,以纯化学试剂的形式添加到土壤中的重金属最易被提取出来 ,植物从中吸收的Cu、Zn、Pb、Cd最多 ,而从以污泥为污染载体的土壤中吸收的Zn、Pb、Cd最少。研究表明 ,用添加纯化学试剂的方法来模拟污染土壤对生态与环境的影响是可行的 ,确定土壤负载容量是安全的 ,因为在实验条件下它对供试植物的影响最明显     

Irrigation suitability of White River in Indiana,Midwestern USA

Climate change models consistently project future precipitation reduction and temperature increase during the crop growing season in the US Midwest, which may exacerbate surface water scarcity issues confronting regional agriculture. To maintain consistent crop yields under the risk of increased droughts, farmers may shift from rain-fed agriculture to irrigation agriculture, particularly during drought periods. There is an urgent need to understand whether surface water in the Midwest is suitable for irrigation. In this study, irrigation water quality was comprehensively analyzed for commonly used parameters regarding salt content including sodium adsorption ratio (SAR), adjusted sodium adsorption ratio (SAR_adj), soluble sodium percentage (SSP), electrical conductivity (EC), total dissolved solids (TDS), residual sodium bicarbonate (RSBC), magnesium adsorption ratio (MAR), permeability index (PI), Kelley’s ratio (KR), synthetic harmful coefficient (SHC), and salinity. Results indicate that water in the White River at Muncie was rated mostly in excellent to good condition with regard to irrigation quality. However, the irrigation suitability level exhibited two distinct patterns between May–July and August–October. Specifically, an average of 7.8% of the samples from May to July were unsuitable for irrigation, and an average of 24.5% of samples from August to October were unsuitable for irrigation considering all parameters. Flow rate change over time and the release of pollutants from wastewater treatment plants and combine sewage outflows to the White River impacted on the irrigation water quality variations of the river. This study showed that there are higher risks during the fall season for farmers to use surface water as an irrigation source, and this risk might be greater if extended or more frequent drought events occur in the future. To our best knowledge, this is the first peer-reviewed study on irrigation water quality assessment in the Midwest and provides useful information for farmers and decision makers to consider while formulating applications for irrigation.

     

Problems and prospectus of utilization of sewage and industrial wastewaters in agriculture

The basic objective of this study was to compile the available information on the composition of sewage and industrial wastewaters in India and their effect on soil–plant health upon their use in agricultural fields. The composition of sewage water is quite variable depending upon the contributing source, mode of collection, and treatment provided. The composition of sewage water varied from site to site which was in accordance with the type of industries present in that area. Continuous use of sewage and industrial wastewater irrigation recorded improvement in water retention, hydraulic conductivity, organic C and build-up of available N, P, K, micronutrient status, and soil microbial count. The electrical conductivity although increased due to sewage irrigation, it was within the tolerance limit to cause any soil salinity hazard. The toxic metals like Cd, Cr, Pb, and Ni were found to be accumulated in soil and plant due to long-term use of sewage and industrial wastewater irrigation. The concentration of these metals was higher in leafy vegetables than in grain crops. This warrants the potential hazard to soil–plant health suggesting necessity of their safe use after pretreatment as a cheap potential alternative source of plant nutrients in agriculture.     

污灌与镉胁迫对菠菜几种抗氧化酶活性的影响（Effects of Sewage Irrigation and Cadmium Stresses on the Activities of Several Antioxidant Enzymes of Spinach）

为了探讨污水灌溉与镉胁迫对菠菜抗氧化酶活性的影响,采用盆栽试验的方法,分别用清水和生活污水配制不同浓度(0、1、5、10、50mg·L-1)的Cd2+溶液,对菠菜进行受试处理,每5d灌喷1次,共处理5次.分别采用邻苯二酚比色法、L-苯丙氨酸比色法、水杨酸比色法和高锰酸钾滴定法,对菠菜叶片多酚氧化酶(PPO)、苯丙氨酸解氨酶(PAL)、β-1,3葡聚糖酶(β-1,3glucanase)和过氧化氢酶(CAT)活性进行了测定.结果表明:1)清水处理系列:随着镉处理浓度的增大,与清水对照相比,PPO、PAL活性呈先升高后降低的趋势,CAT活性略有升高,β-1,3葡聚糖酶活性略有降低,各暴露组与清水对照组相比,均呈现显著差异(p<0.05).2)污水处理系列:随着镉处理浓度的增大,与污水对照相比,PPO、PAL活性呈先升高后降低的趋势,CAT和β-1,3葡聚糖酶活性呈逐渐降低趋势;各暴露组与污水对照相比,均呈现显著差异(p<0.05).3)相同Cd2+浓度下,与清水处理相比,各浓度污水处理PAL和PPO活性均明显降低(p<0.05);而β-1,3葡聚糖酶明显升高(p<0.05).以上结果显示:单一镉污染和生活污水与镉复合污染对菠菜不同抗氧化系统酶具有不同影响,这可能与污水中各成分与镉的相互作用有关.     

Purification of contaminated paddy fields by clean water irrigation over two decades

Paddy fields near a mining site in north part of Guangdong Province, PR China, were severely contaminated by heavy metals as a result of wastewater irrigation from the tailing pond. The following clean water irrigation for 2 decades produced marked rinsing effect, especially on Pb and Zn. Paddy fields continuously irrigated with wastewater ever since mining started (50 years) had 1,050.0 mg kg^?1 of Pb and 810.3 mg kg^?1 of Zn for upper 20 cm soil, in comparison with 215.9 mg kg^?1 of Pb and 525.4 mg kg^?1 of Zn, respectively, with clean water irrigation for 20 years. Rinsing effect mainly occurred to a depth of upper 40 cm, of which the soil contained highest metals. Copper and Cd in the farmlands were also reduced due to clean water irrigation. Higher availability of Pb might partly account for more Pb transferred from the tailing pond to the farmland and also more Pb removal from the farmland as a result of clean water irrigation. Neither rice in the paddy field nor dense weeds in the uncultivated field largely took up the metals. However, they might contribute to activate metals differently, leading to a different purification extent. Rotation of rice and weed reduced metal retention in the farmland soil, in comparison with sole rice growth. Harvesting of rice grain (and partially rice stalk) only contributed small fraction of total amount of removed metal. In summary, heavy metal in paddy field resulted from irrigation of mining wastewater could be largely removed by clean water irrigation for sufficient time.