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1.
Hamid Khazaei Kenneth Street Arja Santanen Abdallah Bari Frederick L. Stoddard 《Genetic Resources and Crop Evolution》2013,60(8):2343-2357
Drought is a major constraint to faba bean (Vicia faba L.) production, and there are many mechanisms by which leaves can regulate water loss. Our primary objective was to test if the origin of the faba bean accessions, from drought-prone and non-drought-prone environments, was associated with differences in measurable aspects of stomatal morphology and physiology related to water use. Two sets, each consisting of 201 faba bean accessions, were chosen from environments with contrasting seasonal moisture profiles following the focused identification of germplasm strategy (FIGS), and then screened under well watered conditions. From these, two subsets of 10 accessions each were chosen to test for differences in response to drought. Parameters related to stomatal function and water status were measured. The dry-adapted set had bigger stomata, higher leaf relative water content (LRWC) and cooler leaves under well watered conditions. Stomatal density and stomatal area per unit area of leaflet were negatively correlated with gas exchange parameters and positively correlated with intrinsic water use efficiency. Drought caused stomatal densities to increase in the dry set while stomatal length decreased in both sets. The moisture deficit was sufficient to decrease gas exchange in both sets to similar levels, but the dry-adapted set maintained warmer leaves and a higher LRWC that showed no significant correlations with leaf morphology or gas exchange, demonstrating more effective stomatal regulation. The results also support that collection site data from the environment where genetic resources are collected can be used as indicators of adaptive traits in an herbaceous annual species. 相似文献
2.
Uptake of soil mineral nitrogen by Acacia mangium and Eucalyptus urophylla × grandis: No difference in N form preference 
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下载免费PDF全文 Daniel Epron Lydie‐Stella Koutika Sogni Viviane Tchichelle Jean‐Pierre Bouillet Louis Mareschal 《植物养料与土壤学杂志》2016,179(6):726-732
The introduction of N2‐fixing tree species in fast growing tree plantations is a sustainable management option aiming to reduce the risk of nitrogen (N) deficiency due to a large and frequent exportation of nutrients at harvest. Differences in soil mineral N preferences between Eucalyptus urophylla × grandis and Acacia mangium may, in addition to facilitation related to atmospheric N2 fixation, contribute to the success of mixed‐species plantations of the two species on nutrient‐poor soils of the coastal Congolese plains. We tested whether these two species differ in their preference for nitrate or ammonium by supplying either ammonium or nitrate enriched in 15N to six‐month‐old potted trees growing in an open‐air nursery. Although the uptake of nitrate tended to be higher than that of ammonium by both species, the difference was not significant and there was no significant difference between the species regarding their preferred form of soil mineral N. Despite much lower N contents in foliage, stems, and roots of eucalypt compared to acacia, the specific rates of N uptake were up to three times higher for eucalypt than acacia, which suggests that atmospheric N2 was the major source of N in the six‐month‐old acacias. We conclude that N2 fixation rather than complementarity for soil mineral nitrogen alleviates the competition between species in successful mixed eucalypt and acacia plantations. 相似文献
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ABSTRACT To characterize the effect of silicon (Si) on decreasing transpiration rate in maize (Zea mays L.) plants, the transpiration rate and conductance from both leaves and cuticula of maize plants were measured directly. Plants were grown in nutrient solutions with and without Si under both normal water conditions and drought stress [20% polyethylene glycol (PEG) concentration in nutrient solution] treatments. Silicon application of 2 mmol L?1 significantly decreased transpiration rate and conductance for both adaxial and abaxial leaf surface, but had no effect on transpiration rate and conductance from the cuticle. These results indicate that the role of Si in decreasing transpiration rate must be largely attributed to the reduction in transpiration rate from stomata rather than cuticula. Stomatal structure, element deposition, and stomatal density on both adaxial and abaxial leaf surfaces were observed with scanning electron microscopy (SEM) and a light microscope. Results showed that changes in neither stomatal morphology nor stomatal density could explain the role of Si in decreasing stomatal transpiration of maize plants. Silicon application with H4SiO4 significantly increased Si concentration in shoots and roots of maize plants. Silicon concentration in shoots of maize plants was higher than in roots, whether or not Si was applied. Silicon deposits in cell walls of the leaf epidermis were mostly in the form of polymerized SiO2. 相似文献
5.
在大田条件下,对缺镁的葡萄园进行了土施和叶面喷施硫酸镁肥的试验,探讨缺镁条件下,施镁对葡萄叶片和果实矿质营养吸收的影响,为葡萄施肥提供理论依据。采用裂区试验,主区设4个土施硫酸镁梯度,分别为0、112.5、150、187.5 kg/hm2,副区设3个叶面喷施硫酸镁浓度,分别是0%、0.2%、0.4%。结果表明:土施和叶面喷施硫酸镁在增加缺镁葡萄镁含量的同时,促进了钾、钙和锰的吸收,但降低了叶片和果实中锌含量,对铁和铜的影响不显著。土施镁肥极显著增加了叶片和果实中镁含量,叶面喷施极显著增加了叶片镁含量,但对果实镁含量影响不显著;土施150 kg/hm2同时叶面喷施0.4%硫酸镁肥,可提高叶片和果实中镁及其它矿质元素的含量。 相似文献
6.
Schlegel TK Schönherr J Schreiber L 《Journal of agricultural and food chemistry》2006,54(18):6809-6813
Rates of foliar penetration of Fe(III) chelates of imidodisuccinic acid (IDHA), ligninsulfonic acid (Natrel), and citric acid (ammonium ferric citrate) were studied at 20 degrees C using a leaf disk method. After drying of the donor droplets, the humidity over the donor residues was maintained at 100% because Fe(III) chelates deliquesce only when humidity is higher than 90%. The wetting agent Glucopon 215 CSUP was added at a concentration of 0.2 g L(-1) to all donor solutions. With fully expanded stomatous broad bean leaves, penetration of Fe-IDHA followed first-order kinetics and rate constants of penetration were higher in light (0.073 h(-1)) than in the dark (0.042 h(-1)). Permeability of broad been leaves to CaCl2 was about 8 times higher than to Fe-IDHA. Doubling the Fe-IDHA concentration in the donor from 2.5 to 5 mmol L(-1) decreased rate constants of Fe-IDHA penetration by a factor of 2.2. Adding the silicon surfactant Break Thru S240 at 10 g L(-1) to the donor induced infiltration of open stomata and about 80% of the applied Fe-IDHA penetrated during droplet drying, while with Glucopon 215 CSUP stomatal infiltration was not observed. With broad bean leaves, penetration of Natrel and ammonium ferric citrate also followed first-order kinetics and rate constants were also higher in light than in the dark. Adaxial astomatous surfaces of fully expanded pear, apple, and grapevine leaves were practically impermeable to Fe-IDHA while stomatous abaxial leaf surfaces were permeable, but rate constants of penetration decreased with time and differed greatly among species. Astomatous surfaces of young unfurling grapevine and peach leaves were permeable to Fe-IDHA, but permeability of stomatous surfaces was much higher. The effect of light on permeability of stomatous leaf surfaces is attributed to the presence of aqueous pores in cuticles over guard cells, and it is suggested that permeability of these pores increases as stomata open. Consequences of these results for foliar applications of Fe chelates are discussed. 相似文献
7.
《Communications in Soil Science and Plant Analysis》2012,43(5-6):389-395
Abstract Salinity affects plants by interaction between sodium (Na) and calcium (Ca). Two sorghum (Sorghum bicolor) genotypes ('Hegari’ and ‘NB‐9040') were studied for the Na x Ca interaction in a soil amended with 2% calcium carbonate (CaCO3) and with 0, 12.3, 24.6, and 36.9 mmol sodium chloride (NaCl)/kg soil. The two genotypes were similar in their response to soil NaCl in their shoot and root growth but differed in response to lime. The salinity‐tolerant Hegari was suppressed by high Ca concentration in the soil, mainly in the low‐NaCl treatments, and responded by a lower concentration of potassium (K) and magnesium (Mg) in the leaves, which was associated with leaf‐chlorosis. Since Na uptake was reduced by Ca, the main effect of salinity on plant growth was by the accumulation of chloride (Cl) in the leaves. 相似文献
8.
《Communications in Soil Science and Plant Analysis》2012,43(9-10):1441-1454
Abstract Manganese (Mn) becomes a limiting factor of plant growth under some soil conditions. High pH and abundance of free calcium carbonate in calcareous soils are conducive to Mn‐deficient plants. The Mn status of highly calcareous soils in Iran has not been studied in detail. This experiment was conducted to obtain such information. Twenty‐three surface (0–20 cm) soil samples with pHs from 7.7 to 8.2 and calcium carbonate equivalent (CCE) from 19 to 46% were used in a 7‐week greenhouse study with soybean [Glycine max (L.) Merr.]. The experiment was a 23 × 3 factorial with three replicates, i.e., 23 soils and 3 Mn levels (0, 15, and 30 mg/kg soil as manganese sulfate). Extractable Mn of the untreated soils were determined before planting by nine different procedures. Dry matter yield, Mn concentration of soybean tops, and Mn uptake were used as the measure of plant response. Multiple regression equations showed that the most influencial soil properties in extractability of Mn in highly calcareous soils are cation exchange capacity (CEC) and calcium carbonate equivalent (CCE). Application of Mn increased dry matter, Mn concentration and Mn uptake of soybean plants in most soils. The Mn concentration of plants on some of the soils, however, decreased following the application of Mn. This was attributed to dilution effect caused by enhanced growth. The recovery of applied Mn in all soils was low, persumably due to conversion of the applied Mn to unavailable forms. Regression equations were developed to predict dry matter, Mn concentration, and Mn uptake by plants from soil Mn extracted by water, hydrochloric acid, disodium‐EDTA, and EDTA‐ammonium acetate. 相似文献
9.
不同沟灌方式下玉米叶片气孔阻力差异 总被引:1,自引:1,他引:1
气孔调节在作物适应不同水分环境中起着重要作用,为了阐明作物在不同沟灌措施下的气孔活动规律,在大田分区试验中研究了交替非充分供水与常规沟灌下玉米叶片气孔阻力差异及气孔对水汽传导的贡献。结果表明,在叶片尺度上,玉米叶片气孔阻力自叶基至叶尖处梯度递减;在群体上,叶片气孔阻力自冠层上层向下层呈垂直递增趋势;群体上层叶片气孔阻力相对较小。玉米叶片正面气孔对CO2和水汽的传导贡献大于反面;除玉米苗期外,气孔对CO2和水汽传导贡献的80%以上来自于冠层上、中部叶片。在玉米营养生长阶段,不同叶序的叶片气孔阻力随叶龄的增大而增大,交替非充分供水加大了不同叶龄叶片之间的气孔阻力差异。在玉米生殖生长阶段,较为成熟的玉米叶片气孔阻力受叶龄的影响不明显。与常规沟灌比较,交替非充分供水增大了叶片反面气孔收缩程度,对水分亏缺反应更为敏感,冠层由顶叶至底叶的叶片气孔阻力呈垂直梯度递增,引起气孔导度快速衰减,从而提高了群体上层气孔对水汽的传导贡献。因此,玉米气孔阻力大小受到沟灌方式和土壤水分状况的调控,还与叶龄、叶面积指数等环境因素及气孔自身特性有关,其研究对控制灌溉及土壤—植物—大气连续体(Soil—plant—atmosphere continuum,SPAC)水汽循环研究具有理论意义。 相似文献
10.
Dang T Vu Longbin Huang Anh V Nguyen Yumei Du Zhiping Xu Marc A Hampton Peng Li Victor Rudolph 《植物养料与土壤学杂志》2013,176(5):764-775
The present study developed methods for quantifying foliar Zn uptake from suspension‐based Zn chemicals of low solubility, which were ZnO (particle size: 0.15–1.34 μm) and a newly synthesized Zn hydroxide nitrate crystal (Zn‐HNC) (50–100 nm thickness and 0.2–1 μm lateral dimension). Recently matured leaves of citrus (Citrus aurantium L. cv. Valencia), capsicum (Capsicum annume L. cv. Giant Bell), and/or tomato (Solanum lycopersicum L. cv. Roma) were in vitro–treated with microdroplets (5 μL per droplet) of Zn‐HNC‐ and ZnO‐suspension solutions on the adaxial surface and incubated under controlled conditions for up to 72 h. Leaf‐washing protocols were compared, including: dilute ethanol (3%), dilute nitric acid (2%), and their combination. The methods for quantifying Zn uptake were: (1) whole‐leaf loading by which droplets of the Zn suspension solutions were loaded onto central regions of both left and right sides of leaf blades and (2) half‐leaf loading by which soluble‐Zn (ZnSO4) droplets were loaded onto only one side of leaf blades while the other was used as the background Zn control. Foliar‐surface characteristics of the plant species affected the effectiveness of the washing methods. The dilute nitric acid (2%; ± 3% ethanol) was required to remove residue particles of the ZnO and Zn‐HNC suspensions from foliar surfaces of capsicum and tomato (highly trichomatic), but the residue Zn chemicals on citrus leaves (nontrichomatic and highly waxy) were similarly and effectively removed by the three washing methods. For quantifying Zn uptake by the leaves, the half‐leaf loading method showed its advantages over the whole‐leaf loading method, because it did not stringently require similar background Zn concentrations in the control and treated leaves at the start and had little risks of secondary absorption of soluble Zn in the washing solution. 相似文献
11.
The effects of nitrogen (N‐) and phosphorus (P‐) deficiency, isolatedly or in combination, on growth, nitrogenous fraction, and inorganic phosphate in xylem exudade, and photosynthesis of common bean (Phaseolus vulgaris L. cv. Negrito) were investigated. Plants were grown in nutrient solution adjusted daily to pH 5.5 and aerated continuously. Ten days after emergence mineral deficiency was imposed. Plants were then supplied with high N (7.5 mol m‐3) or low N (0.5 mol m‐3), and also with high P (0.5 mol m‐3) or low P (0.005 mol m‐3). All sampling and measurements were made 28 days after emergence. N‐ or P‐deprivation brought about large decreases in total leaf area by inhibiting the emergence of new leaves and primarily the expansion of the leaves. The specific leaf area did not change under N‐ but decreased under P‐limitation. The decreased shoot to root ratio in all deficiency treatments was a consequence of a lowering mass of above‐ground organs, especially of leaves. The content of chlorophylls declined significantly only under N‐deficiency alone; carotenoids declined under both N‐ and combined N‐ and P‐limitation. No alteration in amino acid concentration in xylem exudate occurred in plants experiencing N‐starvation, while ureides increased by 79%, and nitrate and inorganic phosphate decreased greatly. Under P‐deprivation, amino acids and nitrate in xylem sap dropped by about half; ureides were held relatively constant, and phosphate was severely depressed. Total upward translocation of N through xylem was estimated to be about 16% higher in N‐deficient plants than in plants without mineral limitation, but leaf N levels in the former were lower as compared to control plants. The net carbon (C) assimilation decreased similarly regardless of the imposed deficiency treatment. Such a decrease was mainly determined by non‐stomatal factors. In general, no additive effect between N‐ and P‐limitation on any of measured parameters was observed. 相似文献
12.
Environmental stresses are one of the most limiting factors in agricultural productivity. A large portion of the annual crop yield is lost to pathogens (biotic stress) or the detrimental effects of abiotic‐stress conditions. There are numerous reports about chemical characterization of quantitatively significant substrate fluxes in plant responses to stress factors in the root‐rhizosphere system, e.g., nutrient mobilization, heavy‐metal and aluminum immobilization, or establishment of plant‐growth‐promoting rhizobacteria (PGPR) by exudation of organic anions, phytosiderophores, or carbohydrates into the soil, respectively. The hormonal regulation of these responses is not well understood. This paper highlights this complex process, stressing the involvement of phytohormones in plant responses to drought and phosphorus deficiency as examples. Beside ethylene, abscisic acid (ABA) plays an important role in drought‐stress adaptation of plants. This hormone causes morphological and chemical changes in plants, ensuring plant survival under water‐limited conditions. For example, ABA induces stomata closure, reduction in leaf surface, and increase in root : shoot ratio and, thus, reduction in transpiration and increase in soil volume for water uptake. Furthermore, it supports water uptake in soil with decreasing water potential by osmotic adjustment. Suitability of hormonal parameters in the selection for improving stress resistance is discussed. Auxins, ethylene, and cytokinins are involved in morphological adaption processes to phosphorus (P) deficiency (increase in root surface, e.g., by the formation of more dense root hairs or cluster roots). Furthermore, indole‐3‐acetic acid increases root exudation for direct and indirect phosphorus mobilization in soil. Nevertheless, the direct use of the trait “hormone content” of a particular plant organ or tissue, for example the use of the drought‐stress‐induced ABA content of detached leaves in plant breeding for drought‐stress‐resistant crops, seems to be questionable, because this procedure does not consider the systemic principle of hormonal regulation in plants. 相似文献
13.
Variation for stomatal characteristics and water use efficiency among diploid,tetraploid and hexaploid Iranian wheat landraces 总被引:1,自引:0,他引:1
Hamid Khazaei Philippe Monneveux Shao Hongbo Shahram Mohammady 《Genetic Resources and Crop Evolution》2010,57(2):307-314
Wheat is one of the most important crops in the world. Its study has involved anatomy, ecology, physiology, molecular biology,
biotechnology, and cultivation. Knowledge of the relationship of diploid, tetraploid and hexaploid wheat with stomatal characteristics
and water-use efficiency is spare and is subject to argument. The present study was aimed to examine different characteristics
of stomata in 28 Iranian landraces belonging to the species Triticum monococcum (2n = 2x = 14), Triticum durum (2n = 4x = 28) and Triticum aestivum (2n = 6x = 42), respectively and investigated a possible relationship between these characteristics and water use efficiency by pot
cultivation experiments. The results revealed large variation among landraces as well as between the different species for
stomatal frequency and size. The diploid wheat species had the highest stomatal frequency and the lowest stomatal length and
width. The hexaploid species had a lower stomatal frequency than the tetraploid species. A highly significant relationship
was noted between the value of those traits on the adaxial and abaxial surfaces of the leaf. The ratio of adaxial to abaxial
values appeared to be constant for a given species. Both stomatal frequency and size were associated with ploidy level, but
also with the nature of the constituting genomes of the species. A highly significant negative association was found among
accessions between stomatal frequency and size. As a consequence, the variation for stomatal area per unit leaf area was less
than for the other traits. Diploid and hexaploid wheat have significantly higher water use efficiency, compared to tetraploid
wheat. No clear association was found, however, between water use efficiency and stomatal characteristics. 相似文献
14.
M. Angeles Forner-Giner Francisco Legaz Eduardo Primo-Millo Juan Forner 《Journal of plant nutrition》2013,36(10):1437-1452
This study assesses the nutritional behavior of the new citrus rootstocks Forner-Alcaide no.5 (FA-5) and Forner-Alcaide no.13 (FA-13) under saline conditions compared to that of their parents, Cleopatra mandarin (CM) and Poncirus trifoliata (PT). Eighteen month-old plants grafted with Valencia orange scions were used in the experiment. The plants were grown in a greenhouse and irrigated over an eight-week period with nutrient solutions to which different amounts of sodium chloride (NaCl) had been added, namely 0, 20, 40 and 60 mM. Relative growth and the uptake of major mineral elements [nitrogen (N), phosphorus (P), potassium (K), calcium (Ca), and magnesium (Mg)] were then determined. It was noted that the reduction in relative growth caused by salt treatment was greater in plants grafted on PT than those on FA-13, FA-5 and CM. Increasing the salt level in the growth medium reduced the absorption of the above mineral elements in all scion-rootstock combinations. However, this decrease was generally more marked in plants grafted on PT than in those on CM and FA-5. Plants on FA-13 showed an intermediate behavior. Positive correlations were found between growth and mineral element uptake by salt treated plants. Nutrient uptake was also plotted against chloride (Cl) and sodium (Na) concentrations in leaves and roots at increasing salt levels. This showed that N absorption was closely correlated (inversely) with Cl content in leaves, whereas K, Ca and Mg uptakes were correlated (inversely) with Na concentration in roots. This suggests that the accumulation of saline ions impacts growth and nutrient uptake by citrus plants. 相似文献
15.
外源硝酸钙对水培生菜生长及矿质元素吸收的影响 总被引:3,自引:0,他引:3
为有效提高水培生菜产品的营养品质和矿物质含量,试验设置0.1%、0.3%、0.5%3个浓度硝酸钙进行叶面喷施处理,以喷施蒸馏水为对照,对不同处理下生菜生长、产量、品质及矿质元素吸收量进行统计分析。结果表明,硝酸钙叶面喷施处理诱导了SOD、POD、CAT活性的升高。硝酸钙处理28 d,各处理维生素C含量低于对照组,但差异不显著;0.5%处理硝酸盐含量显著高于对照,其他处理与对照组差异不显著;0.3%处理可溶性蛋白、叶绿素含量显著高于对照。外源硝酸钙处理可增加叶片数、根长、根冠比,0.3%处理单株产量升高5.9%,可增加生菜地上部分磷、钾、钙含量,钙元素较对照升高最多,为30.8%,铁升高5.3%,镁下降3.2%。0.1%处理铁、镁含量较对照分别升高30.0%、20.3%。但随着处理浓度的升高镁、铁含量下降,0.5%处理较对照分别下降13.1%、1.1%。随着硝酸钙处理浓度的增加地上部锌逐渐从叶片转移至根,0.5%处理地上部分锌含量最低,为110.1mg·kg-1,较对照下降25.8%。综上,适当浓度的硝酸钙可增加水培生菜钙和部分微量元素含量,增加营养品质,施用过量会影响矿物质元素吸收平衡。本研究结果为指导水培生菜生产过程中应用叶面喷施硝酸钙形成高营养品质,提高微量矿物质元素提供了理论依据。 相似文献
16.
Yoshiyuki Ohashi Hirofumi Saneoka Kounosuke Fujita 《Soil Science and Plant Nutrition》2013,59(2):417-425
Siratro (Macroptilium atropurpureum) and soybean (Glycine max) were grown in pots with or without irrigation for 3 weeks at the vegetative stage to examine the effect of water stress on plant biomass production, biological N2 fixation, CO2 assimilation rate, stomatal conductance, leaf water potential, and the partition of 14CO2 to plant parts. Biomass production decreased by water stress and the decrease was less conspicuous in siratro, mainly due to the maintenance of a relatively higher growth rate in stem plus petioles and roots. Siratro maintained a higher stomatal conductance and CO2 assimilation rate at a lower leaf water potential compared to soybean. Water stress decreased the biological N2 fixation in both species, and the decrease was more appreciable in siratro than in soybean under stress conditions. Water stress affected the export of photoassimilates from leaves in both species. The translocation of 14CO2 photoassimilates to nodules and roots was less substantial in siratro than in soybean under water stress conditions. Translocation of photoassimilates from leaves to stem plus petioles in siratro enables the maintenance of growth of stem and petioles under water stress conditions. 相似文献
17.
C. D. Tsadilas 《Journal of plant nutrition》2013,36(8):1167-1178
Cadmium (Cd) is a non‐essential toxic element, which is highly accumulated by tobacco leaves and is transferred to tobacco smoke thus contributing substantially to the permitted level of Cd intake by humans. Therefore, measures to reduce Cd accumulation by tobacco are of significant importance. The purpose of the present study was to investigate the influence of soil liming on Cd uptake by tobacco plants in high Cd exposure. A pot experiment was conducted with Nicotiana tabacum L. Samsun 53 on an acid Typic Haploxeralf amended with refuse sugarbeet lime to obtain a pH range from 5.3 to 7.0 and contaminated with 20 mg kg‐1 Cd applied as CdCl2. Tobacco was grown in pots for three months under natural conditions, harvested in four cuts and Cd uptake by leaves was estimated. In soil samples selected, pH, Cd extracted by DTPA method, and Cd fractions such as exchangeable, organically bound, carbonate and residual were determined. The results showed that Cd uptake influenced negatively tobacco yield. Soil liming decreased Cd uptake by tobacco plants. The DTPA method was not a good indicator for Cd availability in tobacco. A very strong relationship was recorded between exchangeable Cd and total Cd uptake showing that this Cd fraction is available to tobacco plants. Soil pH was correlated strongly in a negative way with this Cd fraction suggesting that this soil factor is very important in controlling Cd accumulation by tobacco. 相似文献
18.
缺磷胁迫下草甘膦对抗草甘膦大豆幼苗光合作用和叶绿素荧光参数的影响1 总被引:4,自引:0,他引:4
为探明缺磷胁迫下草甘膦对抗草甘膦大豆(RR1)幼苗叶片光合作用和叶绿素荧光参数的影响,采用溶液培养方法,在大豆长出真叶时进行缺磷胁迫,第二复叶完全展开时进行草甘膦处理,5d后测定各生理指标。结果表明, 相对于正常供磷条件的清水处理,缺磷胁迫下4.98 mL/L草甘膦处理的大豆叶片净光合速率(Pn)、气孔导度(Gs)、胞间CO2浓度(Ci)、最大荧光(Fm)、PSⅡ最大光化学效率(Fv/Fm)、PSⅡ的有效量子产量[Y(Ⅱ)]、PSⅡ非调节性能量耗散的量子产量[Y(NO)]、最大电子传递速率(ETRmax)和半饱和光强(Ik)均呈下降趋势。而气孔限制值(Ls)、叶绿素a(Chl a)、叶绿素b(Chl b)、叶绿素a/b(Chl a/b)、类胡萝卜素(Car)、总叶绿素(Chl)含量和PSⅡ调节性能量耗散的量子产量[Y(NPQ)]均呈升高趋势。说明缺磷胁迫条件下喷施草甘膦显著降低了抗草甘膦大豆的光合速率。缺磷引起的气孔因素可能是导致RR大豆光合速率下降的主要原因,而光合速率的下降导致其PSⅡ反应中心的开放程度降低,活性减弱,参与CO2固定的电子较少,光化学效率较低。 相似文献
19.
Erika Di Iorio Claudio Colombo Ruggero Angelico Roberto Terzano Carlo Porfido Fabio Valentinuzzi Youry Pii Tanja Mimmo Stefano Cesco 《植物养料与土壤学杂志》2019,182(6):921-933
In soil, iron (Fe) solubility depends on complex interactions between Fe minerals and organic matter, but very little is known about plant availability of Fe present in Fe oxides associated with humic substances. For this purpose, this study investigates the effect of Fe mineral crystallinity in the presence of humic acids (HA) on Fe availability to plants. Four Fe–HA mineral coprecipitates were prepared, either in the presence or absence of oxygen, i.e., two goethite (G)‐HA samples containing large amounts of Fe as nanocrystalline goethite and ferrihydrite mixed phases, and two magnetite (M)‐HA samples containing crystalline magnetite. Bioavailability studies were conducted in hydroponic systems on cucumber plants (Cucumis sativus L.) grown under Fe deficient conditions and supplied with the Fe–HA coprecipitates containing goethite or magnetite. Results showed that plants grown in the presence of Fe–HA coprecipitates exhibited a complete recovery from Fe deficiency, albeit less efficiently than plants resupplied with Fe‐chelate fertilizer used as control (Fe‐diethylene triamine penta acetic acid, Fe‐DTPA). However, the supply with either G‐ or M–HA coprecipitates produced different effects on plants: G–HA‐treated plants showed a higher Fe content in leaves, while M–HA‐treated plants displayed a higher leaf biomass and SPAD (Soil–Plant Analysis Development) index recovery, as compared to Fe‐DTPA. The distribution of macronutrients in the leaves, as imaged by micro X‐ray fluorescence (µXRF) spectroscopy, was different in G–HA and M–HA‐treated plants. In particular, plants supplied with the poorly crystalline G–HA coprecipitate with a lower Fe/HA ratio showed features more similar to those of fully recovered plants (supplied with Fe‐DTPA). These results highlight the importance of mineral crystallinity of Fe–HA coprecipitates on Fe bioavailability and Fe uptake in hydroponic experiments. In addition, the present data demonstrate that cucumber plants can efficiently mobilize Fe, even from goethite and ferrihydrite mixed phases and magnetite, which are usually considered unavailable for plant nutrition. 相似文献
20.
Abstract Thirteen‐year‐old ‘d'Anjou’ pear trees, Pyrus communis L., were fertilized with 3 rates of ammonium nitrate or 2 rates of calcium nitrate in late autumn from 1978 to 1980. In 1981, mid‐terminal and fruiting‐spur leaves and fruit peel and flesh were sampled for mineral analysis of N, P, K, Ca, Mg, B, Cu, Fe, Mn, and Zn. The level of N increased in the above tissues as rate of N fertilizer was increased. In most cases, the levels of N, P, K, Mg, Cu, and Mn in the fruiting spur leaves and fruit were greater in the ammonium nitrate‐treated trees than with calcium nitrate fertilizer. Calcium was higher in the fruit peel and flesh of trees treated with the low rate of calcium nitrate than with the highest rate of ammonium nitrate fertilizer while Ca in the fruiting spur leaves was lower in the calcium nitrate‐fertilized trees. 相似文献