鸭梨秋施^15N尿素的吸收与分配   总被引：32，自引：2，他引：30  

徐季娥  陈良 《园艺学报》1993,20(2):145-149

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基于REE示踪的土壤团聚体破碎转化路径定量表征   总被引：1，自引：0，他引：1  

张文龙  王彬  王云琦  王玉杰  王晨沣  梁春林  蒋春晓 《水土保持学报》2020,34(1):154-161,169

土壤团聚体破碎转化路径是坡面侵蚀过程研究的难点问题之一。目前团聚体破碎转化路径的定量表征仍不明晰,一定程度上限制了土壤侵蚀过程中泥沙分选搬运机制的深入研究。基于大样带调查选取6种不同质地的典型农耕地土壤为研究对象,结合稀土元素(Rare Earth Elements,REE)示踪方法,综合分析不同粒径土壤团聚体(5~2,2~1,1~0.5,0.5~0.25,<0.25 mm)和不同径流扰动周期(24 h,7天)对REE吸附和解吸能力的影响,探究REE示踪不同粒径土壤团聚体破碎转化的可行性,定量表征了土壤团聚体破碎转化路径。结果表明:REE与土壤团聚体的实际吸附浓度低于施放浓度,2~1,1~0.5,0.5~0.25,<0.25 mm土壤团聚体的REE吸附浓度与黏粒含量呈显著正相关(P<0.05);径流扰动影响对吸附于土壤团聚体的REE解吸作用十分微弱,解吸浓度仅占REE实际吸附浓度的0.001%~0.139%。5~2,2~1,1~0.5,05~0.25,<0.25 mm土壤团聚体经过湿筛后向各粒径转化的路径基本相同,向<0.25 mm微团聚体转化为土壤团聚体破碎的主要路径。相较于粉粒、黏粒含量较高的土壤团聚体,砂粒含量较高的土壤团聚体向1~0.5,0.5~0.25 mm粒径的转化贡献率整体偏低。基于REE示踪得到的>0.25 mm各粒径团聚体质量整体被低估,低估范围为-27.96%^-11.08%;而<0.25 mm团聚体质量则被高估,高估范围为3.65%~22.73%。基于各粒径土壤团聚体的REE量化值建立了校正关系,可将计算相对误差降低至0.04%~16.24%。  相似文献   

Analysis of NO3 interception of the parasitic angiosperm Orobanche spp. using a positron-emitting tracer imaging system and 13NO− 3: A new method for the visualization and quantitative analysis of the NO3 interception ratio     

《Soil Science and Plant Nutrition》2013,59(3):408-416

Abstract

The root parasitic plants Orobanche spp. (broomrapes) seriously affect agricultural production. A visualization and quantitative analytical method for the interception of nutrients was established using a positron-emitting tracer imaging system and ¹³NO^? ₃. By using this analytical method that involves volume normalization with ¹⁸F^? images, the nitrogen nutrient interception ratio of the Orobanche spp. was calculated to be 73.6 ± 3.9% in a host–parasite system of red clover (Trifolium pratense L.).  相似文献   

单井示踪和灌浆技术在某堤防除险加固工程中的应用     

肖淑霞  台运华  费宗如 《山东农业大学学报(自然科学版)》2004,35(3):425-428

除险加固是最近几年水利工程建设中经常涉及的问题。本文主要介绍了某堤防除险加固工程的成功例子，主要包括查找渗漏源、确定防渗设计方案以及灌浆施工等相关内容，其中有一些较先进的方法和技术。本文对类似工程具有一定的实际意义。  相似文献   

Analysis of the structure of lignin-carbohydrate complexes by the specific13C tracer method     

Yimin Xie  Sciichi Yasuda  Hong Wu  Huanbin Liu 《Journal of Wood Science》2000,46(2):130-136

In the present study the specifically¹³C-enriched lignin precursors of biosynthesis (i.e., coniferin-[side chain–¹³C], coniferin-[side chain-–¹³C] and coniferin-[side chain-–¹³C]) were synthesized and administered exogeneously to ginkgo shoots (Ginkgo biloba L.) to obtain¹³C-enriched lignin-carbohydrate complexes (LCCs). The specifically¹³C-enriched LCCs were isolated from the newly formed xylem of ginkgo shoots administered with the¹³C-enriched precursors and degraded by enzymes. Lignin-rich fractions, so called enzyme-degraded LCCs (EDLCCs), were obtained. By determining their¹³C-NMR spectra, information related to the chemical structure of lignin building units and linkages between phenylpropane units of lignin and carbohydrates were obtained. It was found that these precursors were incorporated in natural lignin successfully. Three lignin-carbohydrates linkages (i.e., ether type, ester type, ketal type) were found at the C -position of the side chain of phenylpropane units in ginkgo LCC. No lignin-carbohydrate bond at the C- or C-position of the lignin side chain was observed in the¹³C-NMR spectra of the¹³C-enriched LCCs. This fact indicates that a specific¹³C tracer technique can be useful in NMR study of the chemical structure of LCCs.Part of this paper was presented at the 5th Pacific Polymer Conference, Kyongju, Korea, October 1997  相似文献   

半导体工业废水污染特征因子初探     

程云 《绿色科技》2014,(2):196-198

指出了集成电路和印制电路板是半导体工业的主要组成部分,而在生产过程中会大量使用氢氟酸,使得虽经过处理后的生产废水中氟离子浓度仍较高,达到7 mg/L左右;通过将半导体企业排放废水与生活污水、地下水及地表水中氟离子浓度进行比较,提出了以氟离子浓度作为半导体工业废水的污染特征因子,并结合不同雨污混接类型污染特征因子,依据物料和水量守恒得出不同混接类型的近似混接水量比例计算公式,以期为后续的雨污混接溯源和雨污改造工程提供借鉴。  相似文献   

基于¹⁵N同位素示踪盐渍化农田向日葵氮素利用规律     

乔天  刘霞  杨威  高宏远 《水土保持学报》2022,36(5):344-350

为探明盐渍化农田不同施氮水平下向日葵氮素吸收利用规律,采用¹⁵N同位素示踪技术进行田间微区试验,以不施氮处理(N0)为对照,设计3种施氮水平(N1=150 kg/hm²、N2=225 kg/hm²、N3=300 kg/hm²),于向日葵成熟期测定植株和0—100 cm土层土壤¹⁵N同位素丰度及总氮含量,研究各处理肥料氮素的去向及其利用机制。结果表明:向日葵氮素吸收量随施氮量的增加而增加,成熟期作物氮素吸收量在N2水平较不施氮显著增加38.7%;土壤氮和肥料氮对作物当季氮素吸收的贡献比例为84.9%和15.1%。N2水平下,肥料氮的贡献比例较N1增加35.7%,土壤氮的贡献比例较N1降低4.3%。肥料氮残留量随土层深度增加而减少,土壤中47.4%的残留肥料氮主要集中在0—20 cm土层。不同施氮水平下肥料氮去向均表现为氮肥损失率>氮肥残留率>氮肥利用率,N2施氮水平下氮肥利用率较N1、N3显著提高22.7%和14.6%,土壤残留率较N1、N3减少8.5%和8.6%。综合考虑向日葵氮素吸收利用及土壤中氮素残留情况,225 kg/hm²施氮量下氮肥利用率为27.4%,氮肥残留率为32.3%,氮肥损失率为40.3%,是中度盐渍化农田较适宜的施氮量。  相似文献   

Short-term competition between crop plants and soil microbes for inorganic N fertilizer     

Erich Inselsbacher  Nina Hinko-Najera Umana  Markus Gorfer  Katrin Ripka  Rebecca Hood-Novotny  Wolfgang Wanek 《Soil biology & biochemistry》2010,42(2):360-372

Agricultural systems that receive high amounts of inorganic nitrogen (N) fertilizer in the form of either ammonium (NH₄⁺), nitrate (NO₃⁻) or a combination thereof are expected to differ in soil N transformation rates and fates of NH₄⁺ and NO₃⁻. Using ¹⁵N tracer techniques this study examines how crop plants and soil microbes vary in their ability to take up and compete for fertilizer N on a short time scale (hours to days). Single plants of barley (Hordeum vulgare L. cv. Morex) were grown on two agricultural soils in microcosms which received either NH₄⁺, NO₃⁻ or NH₄NO₃. Within each fertilizer treatment traces of ¹⁵NH₄⁺ and ¹⁵NO₃⁻ were added separately. During 8 days of fertilization the fate of fertilizer ¹⁵N into plants, microbial biomass and inorganic soil N pools as well as changes in gross N transformation rates were investigated. One week after fertilization 45-80% of initially applied ¹⁵N was recovered in crop plants compared to only 1-10% in soil microbes, proving that plants were the strongest competitors for fertilizer N. In terms of N uptake soil microbes out-competed plants only during the first 4 h of N application independent of soil and fertilizer N form. Within one day microbial N uptake declined substantially, probably due to carbon limitation. In both soils, plants and soil microbes took up more NO₃⁻ than NH₄⁺ independent of initially applied N form. Surprisingly, no inhibitory effect of NH₄⁺ on the uptake and assimilation of nitrate in both, plants and microbes, was observed, probably because fast nitrification rates led to a swift depletion of the ammonium pool. Compared to plant and microbial NH₄⁺ uptake rates, gross nitrification rates were 3-75-fold higher, indicating that nitrifiers were the strongest competitors for NH₄⁺ in both soils. The rapid conversion of NH₄⁺ to NO₃⁻ and preferential use of NO₃⁻ by soil microbes suggest that in agricultural systems with high inorganic N fertilizer inputs the soil microbial community could adapt to high concentrations of NO₃⁻ and shift towards enhanced reliance on NO₃⁻ for their N supply.  相似文献   

基于多指标评价和分形维数的坡耕地优先流定量分析   总被引：8，自引：0，他引：8  

张东旭  张洪江  程金花 《农业机械学报》2017,48(12):214-220， 277

以重庆紫色砂岩区坡耕地田间染色示踪试验为基础,采用形态学和统计学方法,对3种坡耕地土壤剖面染色图像进行指标提取,运用多指标评价法确定了优先流指数PFI,并结合几何学中的分形理论,定量评价了土壤优先流的发育程度。结果表明:6个优先流特征指标(优先流区染色面积比、基质入渗深度、优先流分数、长度指数、峰值指数和变异系数)均表现出南瓜地和柑橘地的优先流程度高于玉米地;优先流指数PFI由大到小为南瓜地(0.88)、柑橘地(0.77)、玉米地(0);通过Fractal Fox 2.0软件计算得到的优先流湿润峰迹线分形维数由大到小为南瓜地、柑橘地、玉米地。与土壤优先流指数PFI进行比较,所得结果基本一致,说明利用分形维数来评价土壤优先流发育程度是准确可行的。  相似文献   

52Mn translocation in barley monitored using a positron-emitting tracer imaging system     

《Soil Science and Plant Nutrition》2013,59(6):717-725

Abstract

Until now, the real-time uptake and movement of manganese (Mn), an essential plant nutrient, has not been documented in plants. In this study, the real-time translocation of Mn in barley (Hordeum vulgare L. cv. Ehimehadaka no. 1) was visualized using the positron-emitting tracer ⁵²Mn and a positron-emitting tracer imaging system (PETIS). PETIS allowed the non-destructive monitoring of Mn translocation in barley under various conditions. In all cases, ⁵²Mn first accumulated in the discrimination center (DC) at the basal portion of the shoot, suggesting that this region may play an important role in Mn distribution in graminaceous plants. Manganese-deficient barley showed greater translocation of ⁵²Mn from roots to shoots than did Mn-sufficient barley, demonstrating that Mn deficiency causes enhanced Mn uptake and loading into vascular bundles. In contrast, the translocation of ⁵²Mn from roots to shoots was suppressed in Mn-excess barley. In these plants, the uptake of Mn may be suppressed or Mn may accumulate in the intercellular organelles of root cells, resulting in low rates of Mn translocation to shoots. In Mn-sufficient barley, the dark treatment did not suppress the translocation of ⁵²Mn to the youngest leaf, suggesting that the translocation of Mn to the youngest leaf is independent of the transpiration stream. When ⁵²Mn was supplied to the cut end of an expanded leaf, ⁵²Mn was transported to the DC within 27 min and then retranslocated to roots and other leaves. Our results show that the translocation of Mn from the roots to the DC depends passively on water flow, but actively on the Mn transporter(s).  相似文献