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281.
282.
稻壳热解发电含酚废水是稻壳热解发电过程中产生的各种废水的集合,它是一种有毒、有害废水,会对环境产生污染。本文在微波条件下进行了正交实验研究和单因素实验研究,发现pH值、反应时间、H2O2浓度、FeSO4浓度等因素对反应有影响,而且其影响程度从大到小为:pH值、FeSO4浓度、H2O2浓度、反应时间。实验得出了最佳条件:pH值为3,反应时间为7min,H2O2浓度为1500mg/L,FeSO4浓度为120mg/L,微波功率为400W。处理后水样的COD去除率超过81%,挥发酚去除率超过99%。 相似文献
283.
不同水分管理方式下水稻生长季N_2O排放量估算:模型应用 总被引:3,自引:0,他引:3
基于田间原位测定结果,作者建立了不同水分管理方式下稻田N2O排放估算的统计模型.在模型验证和输入参数检验的基础上,本研究应用模型估算了20世纪50~90年代我国稻田水稻生长季N2O直接排放量.结果表明,由于水稻种植面积和氮输入量的增加、以及水分管理方式的变化,稻田N2O-N季节排放量从20世纪50年代平均每年9.55 Gg增加到了90年代每年32.26 Gg,同期伴随着水稻单产的增加.在20世纪50~90年代间,我国水稻生产的N2O-N排放量以平均每10 a 6.74 Gg的速度递增.20世纪50年代和90年代稻田N2O-N季节排放通量平均分别为0.32 kg·hm-2和1.00 kg·hm-2,相当于季节氮输入总量的0.37%和0.46%.本研究模型估算50~90年代间稻田N2O季节排放量的不确定性为59.8%~37.5%.就全国稻田的不同种植区域而言,长江中下游地区稻田水稻生长季N2O排放量占全国稻田N2O排放总量的51%~56%.20世纪90年代水稻生长季N2O排放量约占我国农田N2O年总排放量的8%~11%.相对于旱地作物而言,过去几十年水稻生产的发展在很大程度上减缓了我国农业生产的N2O排放.然而,随着水稻生产中节水灌溉的推广和氮肥施用量的增加,我国稻田N2O季节排放量预计将相应增加. 相似文献
284.
为了探索不同水稻种植区水稻品种对酸雨胁迫的响应规律,采用室内实验方法研究pH值为2.0、2.5、3.0、3.5、4.0、5.0的模拟酸雨对隆安优8、天协1、协优57水稻品种种子发芽率、发芽势、发芽指数、活力指数和异状发芽率5个指标的影响.结果表明:酸雨持续胁迫7d后,上述3个品种的发芽势(率)、发芽(活力)指数随胁迫强度增加(pH值为5.0~3.0)呈先增后减的变化,pH值为2.5时种子仅有异状发芽,pH值为2.0时均不发芽;3者的发芽势(率)、发芽(活力)指数等均与胁迫时间(1~7d)呈显著负相关(异状发芽率呈正相关).综合分析认为,酸雨对3个水稻品种的伤害阈限为pH值2.5~3.5;一定胁强(pH值为2.5)下,3类种子上述5项萌发指标与CK呈显著差异的胁时不同:隆安优8、协优57(4d,2d,2d,2d,4d)大于或等天协1(3d,2d,2d,2d,3d),表明3者对酸雨的抗性存在一定差异,即隆安优8、协优57大于天协1. 相似文献
285.
The effects of exogenous salicylic acid on growth and H2O2-metabolizing enzymes in rice seedlings under lead stress 总被引:4,自引:0,他引:4
Salicylic acid (SA) was an essential component of the plant resistance to pathogens and also plays an important role in mediating plant response to some abiotic stress. The possible effects of SA on the growth and H2O2-metabolizing enzymes in rice seedlings under lead stress were studied. When rice seedlings grown in nutrient solution containing Pb^2+ (0, 0.05, 0.15, 0.25 mmol/L) for 18 d, the plant biomass as well as the chlorophyll content of leaves decreased with increasing Pb concentration. The pre-treatment with SA (treated with 0.1 mmol/L SA for 48 h before Pb stress) partially protected seedlings from Pb toxicity. The chlorophyll contents were significant higher in leaves of Pb-exposed with SA pre-treatment seedlings than in Pb-exposed plants at the same Pb intensity. SA pre-treated alone could significantly increase the length of shoot and root of seedlings but the vigour difference was not marked under long-term exposure to Pb toxicity. SA pre-treated influence the H2O2 level in leaves of seedlings by up-regulating the activity of superoxide dismutase (SOD), repressing the activity of catalase (CAT) and ascorbate peroxidase (APX) depending on the concentrations of Pb^2+ in the growth medium. The results supported the conclusion that SA played a positive role in rice seedlings against Pb toxicity. 相似文献
286.
So far, very little is known about mercury stress-induced intercellular metabolic changes in rice roots at the proteome level. To investigate the response of rice roots to mercury stress, changes in protein expression in rice roots were analyzed using a comparative proteomics approach. Six-leaf stage rice seedlings were treated with 50 μmol/L HgCl2 for 3 hr; 29 protein spots showed a significant changes in abundance under stress when compared with the Hg2+-tolerant rice mutant and wild type (Zhonghua 11). Furthermore, all these protein spots were identified by mass spectrometry to match 27 diverse protein species. The identified proteins were involved in several processes, including stress response, redox homeostasis, signal transduction, regulation and metabolism; some were found to be cellular structure proteins and a few were unknown. Among the up-regulated proteins, OsTCTP (translationally controlled tumor protein) was chosen to perform hetereologous expression in yeast which was presumed to participate in the Hg2+ tolerance of rice, providing evidence for its role in alleviating Hg2+ damage. Among the many tests, we found that OsTCTP-overexpressed yeast strains were more resistant to Hg2+ than wild-type yeast. Thus, we propose that OsTCTP contributes to Hg2+ resistance. Here we present, for the first time, the functional characterization of OsTCTP in connection with Hg2+ stress in plants. 相似文献
287.
Influence of soil type and genotype on Cd bioavailability and uptake by rice and implications for food safety 总被引:7,自引:0,他引:7
Cadmium (Cd) entering the human body via the food chain is of increasing concern. This study investigates the effects of soil type and genotype on variations in the Cd concentrations of different organs of nine rice plants grown on two types of soils with two Cd levels. Cd concentrations in nine rice cultivars varied significantly with genotype and soil type (P < 0.01). The Cd concentration was higher in red paddy soil (RP) than in yellow clayey paddy soil (YP). The average Cd concentrations of different organs in three rice types were indica > hybrid > japonica for the Cd treatments and controls. The polished grain concentration in YP and RP soils had a range of 0.055-0.23 mg/kg and 0.13-0.36 mg/kg in the Cd treatment, respectively. Two rice cultivars in YP soil and five rice cultivars in RP soil exceeded the concentration limits in the Chinese Food Hygiene Standard (0.2 mg/kg). The Cd concentrations in roots, stems, and leaves were all significantly and positively correlated to that in polished grain in a single test. The Cd concentrations in polished grain were positively and significantly (P < 0.01) correlated with the calculated transfer factors of stem to grain and leaf to grain Cd transfer. The results indicated that the variations of Cd concentration in grain were related to Cd uptake and the remobilization of Cd from stem and leaf to grain. Also, the cultivars with a strong tendency for Cd-accumulation should be avoided in paddy soil with low soil pH and low organic matter content to reduce the risks to human health from high Cd levels in rice. 相似文献
288.
Taiping Xie Longjun Xu Chenglun Liu Zhiming Bi 《International Journal of Green Energy》2018,15(10):545-549
Fuel ethanol was produced using rice straw with the simultaneous saccharification and fermentation (SSF) method. The influence of cellulose liquefaction pretreatment and Fe2+ quantity on ethanol productivity was investigated in detail. At the same time, the optimized conditions including fermentation temperature, Fe2+ amount, yeast inoculation quantity, and the inoculated cellulose enzyme dosage in the SSF process were systematically investigated by analyzing fuel ethanol yield. The result indicated that fuel ethanol yield was 0.319 g per gram rice straw by SSF approach when appropriate amount of Fe2+ was added into the reaction system. The optimal technology parameters were: fermenting temperature of 36°C, Fe2+ amount of 4 mg · g?1, inoculating proportion of 20%, cellulose enzyme of 20 IU · g?1, and Pachysolen tannophilu/saecharomyces cerevisiae of 1:2 ratio. The ethanol yield under the best conditions was larger than that of the control group. We hope that this research can facilitate to achieve large-scale comprehensive utilization for rice straw. 相似文献
289.
稻草浸泡液对藻类抑制作用机制 总被引:4,自引:1,他引:4
室内研究了不同降解方式和降解时间的稻草浸泡液对铜绿微囊藻生长的抑制效果及其抑藻机制.结果表明,稻草本身存在抑藻活性物质,低温浸泡4 d的无菌稻草液在2.5 g/L投加量下,对微囊藻的抑制作用达到了69.3%.在稻草浸泡液抑藻过程中,稻草产生的化学物质作用和生物作用同时存在,其相对大小取决于稻草的降解方式和降解时间.对于厌氧降解浸泡液而言,主要通过化学物质的作用抑藻,其抑藻效果随稻草厌氧降解时间的延长明显减弱,如厌氧浸泡15 d和30 d的稻草液在1.5 g/L浓度下其抑制率分别为83%和46%;好氧降解浸泡液主要通过生物作用抑藻.其抑藻效果随稻草好氧降解时间的延长而增强,如1.5 g/L投加量下,15和30 d好氧降解带生物相的稻草浸泡液对微囊藻的抑制率分别为81%和93%. 相似文献
290.
负载铁生物炭对土壤-水稻系统As溶出特性与生物有效性的影响与机理解析 总被引:4,自引:0,他引:4
负载铁生物炭(FeBC)已证实对溶液体系和雄黄矿高砷(As)尾渣中的无机As具有极为显著的吸附钝化效能,但其对土壤-水稻系统中As的溶出特性和生物有效性的影响尚为空白.为此,本研究系统探析了FeBC处理对水稻根际As溶出特性、根表铁膜As持留-释放模式转化和As向水稻体内各器官转运积累的影响与发生机制.结果表明,FeBC处理条件下的水稻根际pH普遍高于对照(CK),而氧化还原电位(Eh)则低于CK;FeBC处理所导致的根际Eh下降几乎同步使根际孔隙水As、Fe浓度自分蘖期后均随FeBC比例的增加而升高,且孔隙水As、Fe浓度具有显著正相关性(p0.01).成熟期内根表铁膜Fe、As含量均随FeBC比例的增加而升高,这一点可由微区X射线荧光(μ-XRF)所显示的2%FeBC处理中水稻根系表面Fe、As浓度均显著高于CK得到印证,而这一特点导致FeBC处理下的白根和糙米As含量显著升高(p0.05).以上结果表明,FeBC能有效提高水稻根表铁膜形成量及其对As的持留,但超过特定阈值的铁膜浓度(20~25 mg·g~(-1))对As的大量富集却可成为根系对As的吸收源,促进As向根系内的转运,并导致稻米As积累量升高.由此可见,含Fe钝化剂对水稻根际As生物有效性的影响具有可变性,其应用风险和产生机制值得引起高度关注. 相似文献