蒙古扁桃种子萌发和幼苗生长对渗透胁迫的响应     

王进  张勇  赵刚  闫芳  张成国  雷蕾  马银山 《上海交通大学学报(农业科学版)》2014,(1):191-195

以天然生长于祁连山自然保护区隆畅河自然保护站的濒危植物蒙古扁桃(Prunus mongolica)去内果皮的种子为材料,以不同渗透势PEG-6000溶液模拟干旱条件,研究了种子萌发和幼苗生长对干旱胁迫的响应特征。结果表明,随着干旱胁迫程度的加剧,蒙古扁桃种子吸胀速率、萌发率、萌发指数、活力指数、苗高和根长、组织饱和含水量等指标均表现出明显降低的趋势,而幼苗初生芽干重、根干重和根冠比均呈先升后降的趋势。蒙古扁桃种子对水势变化既敏感又抗旱,种子能够萌发的最低渗透势阈值为-0.65 MPa。干旱胁迫未能萌发的种子复水后萌发率较高。分析认为,蒙古扁桃种子萌发和幼苗生长对干旱胁迫的响应特征对种的延续具有重要意义,但在人工栽培时保证 土壤墒情应是保障建植成功的关键措施。  相似文献   

植物对硒的吸收转运和形态转化机制   总被引：8，自引：1，他引：7  

王晓芳  陈思杨  罗章  黄青青  乔玉辉  孙宏杰  李花粉 《农业环境科学学报》2014,31(6):539-544

阐述了植物对不同形态硒的吸收、转运和形态转化机制。植物主要吸收水溶性硒,包括部分有机硒、硒酸盐和亚硒酸盐。多数研究表明植物对硒酸盐的主动吸收是通过高亲和力的硫酸盐转运子完成,最近的研究表明磷酸盐可以调节亚硒酸盐的吸收,磷酸盐转运子在亚硒酸盐的主动吸收过程中有重要作用;植物吸收的硒酸盐很快从根部转移到地上部,在叶片中被还原成亚硒酸盐,进而转化为有机硒化物进入其他组织;而亚硒酸盐及其代谢产物主要积累在根部,极少转移到地上部。进入植物体中的硒转化为含硒氨基酸和硒蛋白参与植物的代谢。  相似文献   

规模化猪场处理废水与化肥配施对小麦氮素吸收利用的影响   总被引：6，自引：3，他引：3  

陶晓婷  朱正杰  高威  缪翠云  王远玲  黄丽芬  庄恒扬  陆建飞 《农业环境科学学报》2014,33(3):555-561

规模化猪场处理废水富含植物营养物质,应用于作物生产可实现减少化肥用量和保护环境的双赢。本研究通过田间试验,研究了越冬期不同用量养猪处理废水(30、60、90 m3·hm-2和120 m3·hm-2)和穗期施氮水平(0、30、60 m3·hm-2和90 m3·hm-2)对小麦氮素吸收利用的影响。结果表明,猪场处理废水对小麦具有较好的氮素养分供应作用,拔节期、抽穗期、成熟期叶片SPAD值、植株含氮率都随着污水施用量增加而提高。废水施用60 m3·hm-2以上穗期配施氮90 kg·hm-2的处理花后氮素转移效率、氮素收获指数、氮素籽粒生产效率明显下降。越冬期施用养猪场处理废水60～120 m3·hm-2替代穗期施氮30～60 kg·hm-2,可以满足不同时期小麦氮素营养的需求,并且有较高的氮素积累量和利用效率。  相似文献   

贮藏温度对冷破碎番茄浆品质变化的影响   总被引：1，自引：1，他引：0  

刘凤霞  周林燕  曹霞敏  汪厚银  廖小军 《农业工程学报》2010,26(8):343-349

为探讨冷破碎番茄浆在贮藏过程中的品质变化,以指导冷破碎番茄浆的贮藏,该文研究了其在0、25和37℃条件下贮藏150 d的品质变化,并对产品中主要指标的变化进行了动力学分析。25和37℃贮藏条件下冷破碎番茄浆中氨基酸、总糖、蔗糖、果糖、维生素C含量和颜色指标（亮度L*、红值a*和黄值b*）均显著下降,而5-羟甲基糠醛（HMF）含量、褐变度（BD）和总色差ΔE显著增加,其中总氨基酸、总糖、维生素C、HMF和BD的变化均符合一级动力学模型;而且HMF含量与BD变化呈线性关系,符合零级动力学模型。但是番茄红素和可溶性固形物含量变化不显著,而酸度随温度和时间的增加呈增加趋势。0℃贮藏条件下,除维生素C含量显著下降外,上述其他指标均无显著变化。表明高温贮藏显著降低冷破碎番茄浆的品质,而低温贮藏可有效保护冷破碎番茄浆的品质。  相似文献   

脱水菠菜贮藏过程中颜色变化动力学   总被引：6，自引：1，他引：5  

刁恩杰  李向阳  丁晓雯 《农业工程学报》2010,26(8):350-355

为了探讨脱水菠菜在贮藏过程中叶绿素变化及其与颜色损失的关系,鲜菠菜经过热烫处理后冷冻干燥,包装后在25、35、45和55℃下贮藏,测定贮藏过程中叶绿素和颜色变化,以确定脱水菠菜叶绿素和颜色变化动力学。结果表明：无论是否经过热烫前处理,经过冻干技术得到的脱水菠菜,在贮藏过程中其叶绿素的降解与颜色损失都遵循一级反应动力学方程,且叶绿素的减少与颜色损失密切相关（R2＞0.95,p＜0.05）。在未经热烫和经热烫处理后冻干的菠菜其叶绿素降解的活化能分别为39.99 kJ/mol和41.44 kJ/mol。而用色度计测定的红绿值a*和色彩角值h中,经过热烫前处理的脱水菠菜其活化能分别是18.93 kJ/mol和48.08 kJ/mol,而未经烫漂的分别为18.20 kJ/mol和44.04 kJ/mol。与热烫处理的样品相比,未热烫的脱水菠菜更容易失去叶绿素,热烫处理有利于延长脱水菠菜的货架期。相同前处理的脱水菠菜,在设定的贮藏温度下,叶绿素降解、红绿值a*和色彩角值h的速率常数随贮藏温度的升高均逐渐增大,低温贮藏有利于延长脱水菠菜的货架期。在常温下（20℃）脱水菠菜的货架期为168 d（未热烫）或465 d（热烫）。  相似文献   

不同氮水平对生姜产量和品质及氮素吸收的影响   总被引：3，自引：2，他引：1  

李录久  刘荣乐  陈防  金继运  王家嘉  姚殿立  李东平 《植物营养与肥料学报》2010,16(2):382-388

采用田间试验研究不同基础肥力土壤、不同氮肥水平对生姜产量和品质及氮素吸收的影响。结果表明,氮肥对生姜根茎产量及品质有明显的影响,合理施氮能显著提高根茎产量,改善其营养及安全品质。两种不同基础肥力土壤下,生姜根茎产量均表现为随施氮量的加大先增加后降低,呈抛物线关系,所有处理中N450获得了最高根茎产量。品质分析结果显示,施用适量氮肥能明显提高生姜根茎蛋白质、维生素C、糖分和姜精油含量,有效控制硝酸盐及亚硝酸盐含量。其中,维生素C含量,基础肥力较高土壤以N225处理最高;肥力较低土壤N450处理达到高峰。粗蛋白含量,肥力较高土壤N225处理最高,N450最低;肥力较低土壤,随施氮量的增加,根茎粗蛋白含量相应提高,N600处理达最大值。糖分和姜精油含量,两种肥力土壤下分别是N600和N450处理最高。根茎硝酸盐和亚硝酸盐含量随施氮量的增加而升高,与氮肥用量呈极显著正相关。施用氮肥后生姜地上部茎、叶和地下根茎含氮量明显提高,氮素吸收量显著增多。  相似文献   

超级早、晚稻的养分吸收和根系分布特性研究   总被引：7，自引：2，他引：5  

袁小乐  潘晓华  石庆华  吴建富  漆映雪 《植物营养与肥料学报》2010,16(1):27-32

为了阐明双季超级稻的高产机理和指导合理施肥,采用品种比较的方法,研究了超级早、晚稻品种的养分吸收和根系分布特性。结果表明,超级早、晚稻品种的养分吸收量平均分别为N 170.04、224.90 kg/hm2,P 21.97、39.88 kg/hm2,K 107.48、144.47 kg/hm2,均高于对照。生育中期（穗分化至抽穗）的养分吸收量与产量密切相关。生产100 kg稻谷所需要的养分较对照低10%左右。超级早、晚稻品种根系发达,根量较大。抽穗后15 d（早稻）或20 d（晚稻）的根量与产量密切相关,其中5—10 cm的根量与养分吸收总量密切相关。说明生育中期较多的养分吸收和发达的根系是超级早、晚稻高产的重要原因。  相似文献   

Effect of aluminum uptake on growth and enzyme activity in Pisum sativum var. ‘Alaska’ and ‘Little Marvel’     

Egbert W. Henry  Jeffrey  W. Miller  Lauren J. Dungy  Michael T. Johnson  Julia K. Yeekpeh 《Journal of plant nutrition》2013,36(4):353-373

It is usually assumed that plant tissue responses to nutritional elements are due to specific genetic differences that may exist either between inbred or closely related species. Little Marvel (dwarf) and Alaska (normal) varieties of 14‐day old pea seedlings were treated with four different concentrations of Al‐containing nutrient solution (0.0mM, 0.2mM, 0.6mM and distilled H₂O), prior to being exposed for 14 days to either DARK, LIGHT, or UV. Selected tissues (root tip, main root, main stem and proximal stem) were bioassayed for peroxidase and polyphenol oxidase enzyme activities, fresh wt vs. dry wt, water uptake and stem growth. The present study suggests that Little Marvel and Alaska pea tissue responds to high toxicity levels of Al by demonstrating an enhancement of enzymic activity. Tissue weight, growth and water uptake also show differential tissue specificity in both Little Marvel and Alaska tissue, in terms of Al toxicity response, given a particular external exposure.  相似文献   

Root exudation of diclofop-methyl and triasulfuron from foliar-treated durum wheat and ryegrass     

G DINELLI  A BONETTI  I MAROTTI  M MINELLI  S BUSI  & P CATIZONE 《Weed Research》2007,47(1):25-33

In this study, we evaluated the release of diclofop-methyl and triasulfuron from the roots of foliar-treated ryegrass and wheat. The study with ¹⁴C-diclofop-methyl indicated a basipetal translocation of foliar-applied herbicide in wheat and ryegrass. No root exudation from ¹⁴C-diclofop-methyl-treated wheat plants was observed, while 20 days after treatment (DAT) 0.2–0.9% of radioactivity absorbed by ryegrass was found exuded in the growing medium. Root exudation was stimulated three to six times by the presence of untreated wheat or ryegrass sharing the growing medium with diclofop-methyl-treated ryegrass. No subsequent uptake of exuded radiolabel by untreated plants (ryegrass or wheat) in the same pot with ¹⁴C-diclofop-methyl-treated ryegrass was observed. The study with ¹⁴C-triasulfuron indicated a basipetal translocation of foliar-applied herbicide in wheat and ryegrass and also into the growing medium. By 20 DAT, 0.5–4.2% of radioactivity absorbed by wheat or ryegrass was found exuded in the growing medium. The presence of untreated plants (wheat or ryegrass) in the same pot as triasulfuron-treated ryegrass or wheat induced exudation seven to 32 times more. The study also revealed a subsequent uptake of exuded compounds by untreated wheat or ryegrass sharing the medium of ¹⁴C-triasulfuron-treated plants. This study has demonstrated for the first time that the root exudation of exogenous compounds can be related to plant arrangement in pots. The implication is that herbicide root exudation and transfer, a form of allelopathy, could be significant in the field. A precise estimation of environmental fate, unexpected ecological side effects and residual activity of herbicides may require quantification of such exudation.  相似文献   

Patterns and drivers of seasonal water sources for artificial sand-fixing plants in the northeastern Mu Us sandy land, Northwest China     

Yanwu PEI  Laiming HUANG  Ming'an SHAO  Jiao WANG  Yinglong ZHANG 《土壤圈》2024,34(1):63-77

Understanding plant water-use patterns is important for improving water-use efficiency and for sustainable vegetation restoration in arid and semi-arid regions. However, seasonal variations in water sources and their control by different sand-fixing plants in water-limited desert ecosystems remain poorly understood. In this study, stable isotopic ratios of hydrogen (δ²H) and oxygen (δ¹⁸O) in precipitation, soil water, groundwater, and xylem water were determined to document seasonal changes in water uptake by three representative plant species (Pinus sylvestris var. mongolica Litv., Amygdalus pedunculata Pall., and Salix psammophila) in the northeastern Mu Us sandy land, Northwest China. Based on the depth distribution and temporal variation of measured gravimetric soil water content (SWC), the soil water profile of the three species stands was divided into active (0.01 g g^-1 < SWC < 0.08 g g^-1, 20% < coefficient of variation (CV) < 45%), stable (0.02 g g^-1 < SWC < 0.05 g g^-1, CV < 20%), and moist (0.08 g g^-1 < SWC < 0.20 g g^-1, CV > 45%) layers. Annually, P. sylvestris, A. pedunculata, and S. psammophila obtained most water from deep (59.2% ±9.7%, moist layer and groundwater), intermediate (57.4% ±9.8%, stable and moist layers), and shallow (54.4% ±10.5%, active and stable layers) sources, respectively. Seasonally, the three plant species absorbed more than 60% of their total water uptake from the moist layer and groundwater in the early (June) dry season; then, they switched to the active and stable layers in the rainy season (July–September) for water resources (50.1%–62.5%). In the late (October–November) dry season, P. sylvestris (54.5%–66.2%) and A. pedunculata (52.9%–63.6%) mainly used water from stable and moist layers, whereas S. psammophila (52.6%–70.7%) still extracted water predominantly from active and stable layers. Variations in the soil water profile induced by seasonal fluctuations in precipitation and groundwater levels and discrepancies in plant phenology, root distribution, and water demand are the main factors affecting the seasonal water-use patterns of artificial sand-fixing plants. Our study addresses the issue of plant water uptake with knowledge of proportional source-water use and reveals important implications for future vegetation restoration and water management in the Mu Us sandy land and similar desert regions around the world.  相似文献