Susceptibility of zinc-deficient wheat plants to colonization byFusarium graminearum Schw. Group 1

Wheat plants were grown at three levels of zinc nutrition in potted soil under controlled conditions. The surface soil in half of the pots was inoculated with a thin layer of milled chaff colonized byFusarium graminearum Group 1. Forty days after sowing, the plants were assessed for dry matter production and the extent of colonization by the pathogen. The concentration of zinc in the plant tissues was also determined.The zinc status of the plants ranged from severe deficiency through subclinical deficiency to sufficiency. The extent of colonization above the point of infection was decreased significantly by increasing the level of zinc supply. However, colonization of the seminal or secondary roots was not affected by zinc supply, nor was the incidence of infected plants. The unidirectional effect on resistance suggests that zinc has modified the contribution of the xylem flux to the upward spread of the pathogen.     

Soil CO2 venting as one of the mechanisms for tolerance of Zn deficiency by rice in flooded soils

We sought to explain rice (Oryza sativa) genotype differences in tolerance of zinc (Zn) deficiency in flooded paddy soils and the counter‐intuitive observation, made in earlier field experiments, that Zn uptake per plant increases with increasing planting density. We grew tolerant and intolerant genotypes in a Zn‐deficient flooded soil at high and low planting densities and found (a) plant Zn concentrations and growth increased with planting density and more so in the tolerant genotype, whereas the concentrations of other nutrients decreased, indicating a specific effect on Zn uptake; (b) the effects of planting density and genotype on Zn uptake could only be explained if the plants induced changes in the soil to make Zn more soluble; and (c) the genotype and planting density effects were both associated with decreases in dissolved CO₂ in the rhizosphere soil solution and resulting increases in pH. We suggest that the increases in pH caused solubilization of soil Zn by dissolution of alkali‐soluble, Zn‐complexing organic ligands from soil organic matter. We conclude that differences in venting of soil CO₂ through root aerenchyma were responsible for the genotype and planting density effects.     

Estimation of physiologically active zinc in maize by biochemical assay

Summary The enzymes ribonuclease, aldolase and carbonic anhydrase were evaluated as biochemical assays for physiologically active zinc in maize. Seedlings were cultured for 14 or 30 days on a black-earth soil with factorial combinations of phosphorus and zinc fertilizers so as to produce in the leaves varying levels of active zinc at a constant level of total zinc. Enzyme activity was correlated with plant growth, leaf nutrient composition and the occurrence of visual symptoms of zinc deficiency. Ribonuclease and aldolase activities in leaf tissues were insensitive to the changes in active zinc concentration, though aldolase activity was sensitive to phosphorus deficiency. In contrast, leaf carbonic anhydrase activity correlated well with the onset and correction of zinc deficiency symptoms and, as early as 14 days after emergence, was more sensitive to the deficiency than was plant growth. The sensitivity of carbonic anhydrase to changes in active zinc and its specificity for such changes were further examined in 10 to 30 day-old plants grown in solution culture. Zinc was added to plants which had been cultured without zinc for 16 days. A 2.5-fold increase in carbonic anhydrase activity preceded responses by either zinc concentration or plant growth. We propose the use of leaf carbonic anhydrase as an index of active zinc in maize, particularly to supplement inorganic analysis in the diagnosis of zinc deficiency when much of the zinc in the plants is inactive. The assay is simple, is sensitive to and specific for zinc status, and enables early detection of a deficiency before irreversible biochemical events predispose a large yield reduction.     

不同水分条件下混种密度对芦苇和反枝苋种间竞争的影响

与本地植物的种间竞争是影响外来植物能否成功入侵的关键因素之一,该研究通过受控模拟试验研究了本地植物芦苇(Phragmites australis)和外来入侵植物反枝苋(Amaranthus retroflexus)在淹水和干旱两种水分条件下混种密度(6∶2、4∶4和2∶6)对其种间竞争的影响。结果表明:(1)芦苇和反枝苋的相对产量与相对产量总和均小于1,即两种植物存在种间竞争。(2)种间竞争使芦苇和反枝苋的生长均受到了不同程度的抑制,表现在两者的株高和生物量均随着竞争者密度的增加而降低。(3)植株地上部分和地下部分的氮浓度表现出与株高和生物量相同的趋势,且在不同水分条件下存在差异。(4)芦苇和反枝苋分别在淹水和干旱环境下具有较强竞争力,但在各自较高混种密度下亦具有较强竞争力。可见,芦苇和反枝苋的种间竞争受到了水分和混种密度的影响。因此,在有反枝苋分布的湿地中,植物生长初期可通过增加土壤水分和/或增加芦苇等本地植物的种群密度以降低反枝苋的种群密度来限制其竞争能力,防止反枝苋在湿地中生长建群和扩散入侵。     

不同苹果砧木对缺锌胁迫的耐性评价

为筛选适应缺锌胁迫环境的砧木资源,以山定子、丽江山定子、小金海棠、锡金海棠、新疆野苹果、八棱海棠、平邑甜茶、火焰海棠8种苹果砧木资源为试材,对砧木株高、干物质量、根系构型及锌含量等指标进行测定,利用模糊隶属函数法进行耐缺锌能力综合评价.结果表明： 缺锌处理下,丽江山定子、锡金海棠和新疆野苹果均先表现出新生叶小、簇生等缺锌症状,而小金海棠、火焰海棠缺锌症状不明显;缺锌显著降低了苹果砧木株高和地上部锌积累量,而小金海棠的降低幅度最小;缺锌胁迫下小金海棠和山定子叶片锌含量较高,分别为23.2和21.3 mg·kg^-1.采用模糊隶属函数法综合评价参试砧木耐缺锌能力：小金海棠最强,火焰海棠次之,山定子、锡金海棠、八棱海棠和平邑甜茶的耐缺锌能力较弱,丽江山定子和新疆野苹果的耐缺锌能力最弱.     

不同种植年限薰衣草根际土壤真菌群落结构的演变

土壤真菌群落结构和多样性对植物生长起着重要作用,了解种植年限对薰衣草根际土壤真菌群落结构的影响对薰衣草病害防治和增产的研究具有重要意义。探究不同种植年限薰衣草根际土壤真菌群落结构和多样性特征,及其随种植年限的演变规律。采集新疆伊犁霍城县种植年限1、3、5 a,以及未种植薰衣草土壤,对ITS序列进行Illumina高通量测序。对测序结果进行分析,比较各样品组真菌多样性和群落分布规律及与种植年限的关联。结果表明,Alpha多样性分析显示随着种植年限的增加Shannon指数逐渐降低,而Chao1指数先降低后增高。在种植薰衣草土壤中共检测到12个门,28个纲,72个目,146个科,236个属。在门水平上,子囊菌门(Ascomycota)、担子菌门(Basidiomycota)、球囊菌门(Glomeromycota)为优势菌门。随着种植年限的增加,子囊菌门相对丰度逐渐降低,担子菌门逐渐增高,而球囊菌门先增加后降低。在属水平上优势菌属为Xylodon、锐孔菌属(Oxyporus)、镰刀菌属(Fusarium)、枝孢属(Cladosporium),均属于植物致病菌。随着种植年限的增加,Xylodon...     

Pertilization and nutrition experiments with conifer seedlings in pots

Summary In conifer fertilization and nutrition experimentsPinus halepensis, P. radiata andP. maritima seedlings were grown in pots, filled with soil derived from mica schist and siliceous tertiary deposits and also in peat substrate in paperpots.Fertilization with P ofP. radiata andP. maritima seedlings growing in soil low in available P and N improved seedling height only in combination with N fertilization and fertilization with alone induced P deficiency symptoms. N fertilization with from 100 to 150 ppm (2.4 to 3.2 g N/kg, respectively) in the soil regardless of the form of N (NH₄ ⁺ or NO₃ ^–) applied in the summer or autumn together with application of 20 ppm P before sowing was the fertilization regime which produced the best seedlings.Fertilization of peat before sowingP. halepensis, P. radiata andP. maritima with omission of one of the nutrients N, P and K resulted in visible symptoms of N, P and K deficiency, respectively, in the seedlings. Comparative chemical analysis of needles from the three kinds of conifer seedlings with deficiency symptoms and healthy ones verified the visual symptoms of N and P deficiency but not so convincingly the K deficiency symptoms.     

Dilute hydrochloric acid as an extractant for available zinc,copper and boron in rice soils

Summary Because zinc deficiency is a widespread disorder of wetland rice and copper deficiency may occur with it, 0.05M HCl was compared with 0.1M HCl, EDTA and DTPA as an extractant for available zinc and copper. It was also compared with the reflux method for boron assay.Thirty-three wetland rice soils were analyzed for zinc and copper by the four methods. Rice was grown on the flooded soils, scored visually for zinc deficiency, and the plants analyzed for zinc and copper content. In the boron study, 53 soils were extracted by the reflux method and the 0.05M HCl procedure. Rice was grown on the flooded soils, scored visually for boron toxicity, and the plants analyzed for boron content.Fourteen of the 16 soils on which rice showed zinc deficiency gave <1.0 mg/kg Zn by the 0.05M HCl method but values far in excess of the critical limits by the other methods. The r values for available and plant zinc were: 0.05M HCl (0.88^**); 0.1M HCl (0.55^**); EDTA (0.43^**); and DTPA (0.31^ns).Twelve of the zinc-deficient soils gave<0.1 mg/kg Cu by the 0.05M HCl method but values exceeding the critical limits by the EDTA and DTPA methods. The r values for available and plant copper were: 0.05M HCl (0.74^**), 0.1M HCl (0.64^**), EDTA (0.28^ns), and DTPA (0.20^ns).The critical limit of 1.0 mg/kg by the 0.05M HCl extraction was confirmed for zinc deficiency and a tentative value of 0.1 mg/kg for copper deficiency proposed.The 0.05M HCl method separated boron-toxic soils from non-toxic soils and gave a better correlation (r=0.91^**) between available and plant boron than the reflux extraction (r=0.84^**). The toxic limit by the 0.05M HCl method was provisionally set at 4 mg/kg.     

Effect of zinc supply on growth of three species of Eucalyptus seedlings and wheat

Summary Effects of zinc supply on shoot and root dry weight, root length, zinc concentrations and carbonic anhydrase activity were measured in 52 day old seedlings ofEucalyptus maculata, E. marginata, E. patens and wheat grown in a zinc deficient soil in the glasshouse.Symptoms of zinc deficiency in the eucalyptus and wheat appeared within 20 to 35 days. Eucalypt seedlings had short internodes and small necrotic leaves, reduced dry weight of shoots and roots, root length and zinc concentrations in young leaves; the measurable level of leaf carbonic anhydrase activity decreased to zero. Similar responses also occurred in wheat.The level of zinc fertilizer required for normal growth of Eucalyptus seedlings is therefore likely to be similar to that used for wheat and other agricultural crops.     

Nitrogen deficiency as well as phosphorus deficiency in sorghum promotes the production and exudation of 5-deoxystrigol,the host recognition signal for arbuscular mycorrhizal fungi and root parasites

Strigolactones released from plant roots induce hyphal branching of symbiotic arbuscular mycorrhizal (AM) fungi and germination of root parasitic weeds, Striga and Orobanche spp. We already demonstrated that, in red clover plants (Trifolium pratense L.), a host for both AM fungi and the root holoparasitic plant Orobanche minor Sm., reduced supply of phosphorus (P) but not of other elements examined (N, K, Ca, Mg) in the culture medium significantly promoted the secretion of a strigolactone, orobanchol, by the roots of this plant. Here we show that in the case of sorghum [Sorghum bicolor (L.) Moench], a host of both the root hemiparasitic plant Striga hermonthica and AM fungi, N deficiency as well as P deficiency markedly enhanced the secretion of a strigolactone, 5-deoxystrigol. The 5-deoxystrigol content in sorghum root tissues also increased under both N deficiency and P deficiency, comparable to the increase in the root exudates. These results suggest that strigolactones may be rapidly released after their production in the roots. Unlike the situation in the roots, neither N nor P deficiency affected the low content of 5-deoxystrigol in sorghum shoot tissues.     

Zinc deficiency and pollen fertility in maize (Zea mays)

Zinc deficiency decreased pollen viability in maize (Zea mays L. cv. G2) grown in sand culture. On restoring normal zinc supply to zinc-deficient plants before the pollen mother cell stage of anther development, the vegetative yield of plants and pollen fertility could be recovered to a large extent, but the recovery treatment was not effective when given after the release of microspores from the tetrads. If zinc deficiency was induced prior to microsporogenesis it did not significantly affect vegetative yield and ovule fertility, but decreased the fertility of pollen grains, even of those which visibly appeared normal. If the deficiency was induced after the release of microspores from the tetrads, not only vegetative yield and ovule fertility but pollen fertility also remained unaffected.     

Effect of Calcium and Zinc on the Activity and Thermostability of Superoxide Dismutase

The effect of calcium and zinc ions on superoxide dismutase (SOD) from four plant species (Taxus baccata, Pinus sylvestris, Medicago rigidula, and Zea mays) was followed at three temperatures: optimal (20 °C), increased (50 °C), and high, inhibiting temperature (70 – 80 °C). At 20 and 50 °C in vitro added calcium increases SOD activity, but the degree was different for the plants investigated. The effect of zinc ions at the same temperatures varied in the investigated plants from activation to inhibition. An inhibiting effect of high temperature on SOD activity was diminished in the presence of calcium or zinc ions. It was shown that calcium and zinc ions can increase activity and thermostabilize different SOD isoforms.     

不同水淹下狗牙根-牛鞭草混作对植株生物量的影响

了解狗牙根(Cynodon dactylon)和牛鞭草(Hemarthria altissima)在不同水淹地区较优的种植方式对退化湿地的植被修复具有重要意义。设置4种不同水分条件,即对照组(CK)、水淹与干旱交替组(FD)、土壤表面水淹组(FL)和全淹组(SM),4种不同的植株密度(每盆分别种植1,2,4株或12株)和2种不同的种植方式(单作和混作),研究两物种在不同水淹条件下以不同方式和密度种植时的生物量变化。结果表明,水分、种植密度和种植方式均显著影响两物种的地上生物量和总生物量(P0.05)。CK和FD条件下,以中、高密度混作的狗牙根地上生物量和总生物量与单作相比显著下降(P0.05),牛鞭草在混作方式下的生物量与单作相比有了一定提高,其中在高密度混作情况下其生物量得到显著提高(P0.05)。在FL条件下,与单作相比,中、低密度混作的狗牙根和牛鞭草生物量均具有一定的上升。全淹条件下以中、低密度混作对狗牙根地上生物量和总生物量具有显著的促进作用(P0.05),对牛鞭草无显著差异(P0.05),高密度混作方式则对两物种生物量均无显著影响(P0.05)。随着水淹程度的增加,混作对狗牙根产生的生长抑制影响逐渐减弱。在长期浅水淹的地区,采取中、低密度混作将更有利于牛鞭草和狗牙根的长期共存。在较低海拔的全淹地区,采取高密度的牛鞭草-狗牙根混作方式将是更为理想的选择。     

Body zinc distribution profile during N-methyl-N-nitrosourea-induced mammary tumorigenesis in rats at various levels of dietary zinc intake

Zinc distribution is apparently altered in breast cancer patients. It is unclear if this apparent zinc redistribution is a consequence of altered zinc nutrition or tissue-specific response to breast cancer. Our objectives were to assess effects of N-methyl-N-nitrosourea-treatment and N-methyl-N-nitrosourea-induced mammary tumorigenesis on body zinc-distribution profile in rats and to assess effects of dietary zinc intake on the body zinc-distribution profile during N-methyl-N-nitrosourea treatment and N-methyl-N-nitrosourea-induced mammary tumorigenesis in rats. Female Sprague-Dawley rats were assigned to zinc-deficient (3 mg/kg diet) or zinc-adequate (31 mg/kg diet) ad libitum or pair-fed group. Rats were sham treated or N-methyl-N-nitrosourea treated (50 mg/kg body weight; Experiment 1 or 40 mg/kg body weight; Experiment 2) (n=6). In both experiments, the zinc concentration was significantly higher (6–19 times) in mammary tumor than in mammary gland. Tissue zinc concentration was essentially unaffected by N-methyl-N-nitrosourea treatment and tumor bearing, but was reduced by zinc deficiency in the bone, kidney, and liver. Overall, higher mammary tumor zinc concentration and absence of zinc redistribution during N-methyl-N-nitrosourea treatment and N-methyl-N-nitrosourea-induced mammary tumorigenesis, regardless of zinc intakes, indicates zinc accumulation in mammary tumors. Because zinc is essential for growth and cancer is characterized by uncontrolled growth, this zinc accumulation suggests an involvement of zinc in N-methyl-N-nitrosourea-induced rat mammary tumorigenesis.     

Effect of zinc nutritional status on activities of superoxide radical and hydrogen peroxide scavenging enzymes in bean leaves

The effect of varied zinc (Zn) supply on the activities of superoxide dismutase (SOD), ascorbate (AsA) peroxidase, glutathione (GSSG) reductase, catalase and guaiacol peroxidase was studied in leaves of bean (Phaseolus vulgaris) plants grown for 15 days in nutrient solution. Zinc deficiency severely decreased plant growth and the leaf concentrations of soluble protein and chlorophyll. Resupply of Zn to deficient plants for up to 72h restored protein concentrations more rapidly than chlorophyll and plant growth. With the exception of guaiacol peroxidase, the activities of all enzymes were significantly decreased by Zn deficiency, in particular GSSG reductase and SOD. Within 72h of resupplying Zn to deficient plants, the enzyme activities reached the level of the Zn sufficient plants. The results indicate severe impairment in the ability of Zn-deficient leaves to enzymically scavenge O₂ ^- and H₂O₂. Consequences and reasons of this impairment are discussed in terms of photooxidation of chloroplast pigments and inhibition of the biosynthesis of the related scavenger enzyme proteins.     

The influence of soybean planting density on dinitrogen fixation and yield

We investigated the effect of planting density on soybean (Glycine max (L.) Merr.) yield in glasshouse and field experiments. Because net canopy photosynthesis increases with increasing plant density, we hypothesized that increasing planting density would result in increasing rates of dinitrogen fixation in soybeans and higher yields per unit land area.In glasshouse studies, Wayne variety soybeans were planted in 10-cm diameter pots, 1 plant pot^-1 in matrices of 10-, 15-, 20-, 25-, or 30-cm equidistant intervals. Bradyrhizobium japonicum inoculum was added to half of the plants in each treatment. Replicate measurements of total stem height, internode lengths, leaf mass, stem mass, root mass, nodule number, nodule mass, and nitrogenase activity were obtained at 3, 6, and 9 weeks post-emergence. Fruits were harvested and counted at week 14. As planting density increased there were (1) altered morphology and growth rates, (2) increased apparent specific nodule activity (SNA), (3) decreased nodule number and mass, and (4) nearly constant fruit and seed production/plant. Expressed on a unit area basis, nitrogen influx and yield increased geometrically as planting density increased, with maximum values observed for 10-cm plantings.Field studies of Wayne, Stein, Williams, and Gold Harvest soybean varieties were made in 1985. Plots were established containing 100 plants spaced at 10-, 20-, and 30-cm distances. Measurements made during the growing season and at harvest established the same relative trends identified from the glasshouse studies. Increasing plant densities resulted in higher yields per unit land. Varietal differences were almost significant.     

Xanthan is not essential for pathogenicity in citrus canker but contributes to<Emphasis Type="Italic"> Xanthomonas</Emphasis> epiphytic survival

Xanthan-deficient mutants of Xanthomonas axonopodis pv. citri, the bacterium responsible for citrus canker, were generated by deletion and marker exchange of the region encoding the carboxy-terminal end of the first glycosyltransferase, GumD. Mutants of gumD did not produce xanthan and remained pathogenic in citrus plants to the same extent as wild-type bacteria. The kinetics of appearance of initial symptoms, areas of plant material affected, and growth of bacteria inside plant tissue throughout the disease process were similar for both wild-type and mutant inoculations. Moreover, exopolysaccharide deficiency did not impair the ability of the bacteria to induce hypersensitive response on non-host plants. Apart from variations in phenotypic aspects, no differences in growth or survival under different stress conditions were observed between the xanthan-deficient mutant and wild-type bacteria. However, gumD mutants displayed impaired survival under oxidative stress during stationary phase as well as impaired epiphytic survival on citrus leaves. Our results suggest that xanthan does not play an essential role in citrus canker at the initial stages of infection or in the incompatible interactions between X. axonopodis pv. citri and non-host plants, but facilitates the maintenance of bacteria on the host plant, possibly improving the efficiency of colonization of distant tissue.     

Inoculation of pea (Pisum sativum L.) by Rhizobium leguminosarum bv. viceae preincubated with naringenin and hesperetin or application of naringenin and hesperetin directly into soil increased pea nodulation under short season conditions

In short season areas, low soil temperature is the major limiting factor for symbiotic nitrogen fixation of legume. One greenhouse and four field experiments were conducted in 1999 to determine whether the pre-incubation of Rhizobium leguminosarum bv. viceae with hesperetin and naringenin or application of these compounds onto the seed surface or into the seed furrow at the time of planting can increase pea nodulation and final grain yield. The results from these experiments clearly indicated that application of naringenin and hesperetin by either pre-incubating R. leguminosarum bv. viceae prior to inoculation of plant or directly applying onto the seed surface or into seed furrow at the time of planting can increase pea nodulation, and plant pod numbers. Interactions existed between symbiotic signal compounds and pea cultivars or R. leguminosarum bv. viceae strains. However, there was no impact on the final grain yield by the treatments from the field experiments. The effects of these treatments on the final grain yield have to be farther tested.     

水分和种植密度对干热河谷车桑子生长性状及种内相互关系的影响

水分是干热河谷植物生长过程中最主要的限制因子,种植密度增加也会引起植物生长的资源限制,两者交互作用下植物生长性状及种内关系的变化特征还不清楚。以干热河谷优势植物——车桑子为研究对象,根据元谋干热河谷年均生长季降雨量设置3种水分梯度:高水分、中水分和低水分,同时在各水分梯度下设置4个种植密度:1、2、4、9株/盆,探究水分、种植密度及其交互作用对车桑子生长性状、生物量分配及种内相互作用的影响。结果表明:(1)低水分条件下,车桑子生长和水分生理受到抑制,但车桑子在较低的叶水势下依然能够保持较高的相对含水量;(2)干旱胁迫显著降低了车桑子总生物量和单株生物量,显著增加了枯叶生物量比例,低水分和中水分条件下,增加种植密度对总生物无显著影响;而高水分条件下,增加种植密度显著提高了车桑子总生物量;(3)低水分显著增加了茎、叶生物量的异速生长指数,将更多生物量分配到叶,而种植密度增加显著降低了茎、叶生物量的异速生长指数,增加了茎的生物量分配;(4)通过相对邻体效应的计算,各处理条件下,车桑子种内关系均表现为竞争作用,并且,这种竞争作用的强度随水分的减少和密度的增加而增加。在高密度条件下(9棵/盆),...