Effect of salinity on germination characters and seedlings parameters of Egyptian flax cultivars growing in Nyiregyhaza

In the recent years using non-traditional sources, i.e. saline water in irrigation becomes essential. Overcoming the toxic effects of salinity stress and improving salt tolerance is consider one of the challenges for enhancing germination, seedling characters and biochemical analysis. Therefore, a laboratory experiment was conducted to study the response of seven Egyptian flax cultivars i.e. (Giza 9, Giza 10, Giza 11, Giza 12, Sakha 2, Sakha 5 and Sakha 6) germinated under five salinity stress i.e. (control, 3, 6, 9 and 12?dS?m^?1) at Research Institute of Nyiregyhaza using Factorial Experimental in Randomized Complete Block Design (RCBD) with four replications. The following results were recorded: Tested Egyptian flax cultivars significantly varied for germination characters, seedling properties and chemical analysis. Giza 11 exceeded recorded the maximum values of germination and seedling characters, potassium and proline content compared with the other studied cultivars. Increasing salinity stress up to 12?dS?m^?1 significantly affected germination characters, seedlings parameters and chemical analysis. In general, Giza 11 cultivar substantiated best at high level of salinity stress compared with other studied cultivars. Furthermore, produced the lowest values of Na⁺ content.     

Effects of seed priming with ascorbic acid to mitigate salinity stress on three wheat (Triticum aestivum L.) cultivars.

In this study, the effect of seed priming using ascorbic acid (ASA) on three commercial wheat cultivars i.e., Punjab-2011, Faisalabad-2008, and Ujala-2016 under salinity stress in both homogenous and heterogeneous environments has been investigated. It revealed that different levels of salinity have significantly reduced the growth attributes like percent germination, germination index, radical & plumule length, seed vigor index (In-vitro), seedling length, fresh & dry weight, and total chlorophyll content (In-vivo) with subsequent treatments. Salinity stress was induced by using NaCl in three different concentrations (100, 150, and 200 mM). Seeds of the three cultivars primed with 50, 100, and 150 mg/L ascorbic-acids have not only improved percent germination but also considerably reduced germination time and increased germination index (GI) indicating the potential for tolerating saline conditions. Seedling growth (seedling length, Fresh weight, and dry weight) of seeds primed with 50, 100, and 150 mg/L (ASA) was significantly higher than other non-primed seeds under the prevailing saline conditions. Hormonal priming with different concentrations of ascorbic acid was effective, nevertheless, the best results were obtained with 100 and 150 mg/L (ASA) concentrations. We concluded that the delay in germination and seedling growth was mainly due to excessive Na⁺ accumulation in the seeds of wheat cultivars. On the other hand, seed priming with various concentrations of ascorbic acid has proved to be effective in inducing salt tolerance in terms of germination parameters, seedling characteristics, and chlorophyll retention in the three local commercial wheat cultivars.     

Sunflower germination and growth behavior under various gamma radiation absorbed doses

Gamma radiation, various absorbed doses (0.5, 1, 1.5, 2, 2.5, 3, 3.5, 4, 4.5, 5 krad) effects were evaluated on sunflower (Helianthus annus. L.) germination and growth characteristics. Sunflower healthy seeds were exposed to gamma radiation source Co⁶⁰ at nuclear institute for food and agriculture and exposed seeds were grown under controlled laboratory conditions. In comparison to control, gamma radiation absorbed doses affected the measured response positively i.e., radical length, plumule length, number of roots, seedling fresh weight, seedling dry weight, germination percentage, time of germination and diameter of hypocotyl of sunflower enhanced up to 83.15%, 70.32%, 73.03%, 4.80%, 3.26%, 72.0%, ? 18.88% and 12.58%, respectively. The time of germination, fresh weight and percent moisture contents enhanced insignificantly, however, the response was higher than control. All gamma radiation absorbed doses showed a stimulatory effect on sunflower germination and seedling growth characteristics. The low gamma radiation absorbed doses were found to be more effective versus higher doses for enhancing the germination and growth characteristics of sunflower. In view of positive effect of gamma radiation of sunflower germination and growth characteristics, it is concluded that this techniques could possibly be used for the enhancement of germination, growth and ultimately yield in sunflower in areas where germination is low due to unfavorable conditions.     

Allelopathic suppression of wheat and mustard byRumex dentatus ssp.klotzschianus

Laboratory studies were conducted to see the allelopathic suppression of wheat and mustard byRumex dentatus ssp.klotzschianus (Meissn) Rech. It was observed that aqueous extracts, rain leachates and litter from dried and fresh shoot and roots invariably inhibited the germination and seedling growth of both the crop species. Soil collected from beneathRumex dentatus also proved harmful for the germination and seedling growth. It is suggested thatRumex dentatus ssp.klotzschianus exhibits allelopathy against wheat and mustard.     

Plastic responses that confer invasiveness to Rivina humilis L.

Rivina humilis L. (Petiveriaceae) is an invasive plant occurring throughout the tropics and subtropics. As successful plant invasion involves phenotypic plasticity; rapid seed germination and high competitiveness through the release of allelochemicals, the reasons behind the ability of R. humilis to establish and thrive under diverse environmental conditions were explored through series of experiments. The influence of different soil types (Alluvial, Alfisol, Vertisol and Laterite), pH (4–10) and nutrient concentrations (0–100%) on seed germination and seedling development of R. humilis were examined. The effect of aqueous leaf or fruit pulp extracts on seed germination and seedling development of different test plants was determined. The role of root endophytic fungi on plant growth was assessed by growing R. humilis in the presence and absence of fungi. Shade tolerance was investigated by growing R. humilis under different light intensities and measuring the photosynthetic rates. The results of the study indicate that R. humilis was able to grow in different soil types and pH levels. As the fruit pulp fails to affect seed germination or development of test plants (finger millet, green gram, brinjal, maize) increasing concentrations of leaf extract negatively influenced these processes. Seed germination of R. humilis decreased at the highest alkaline pH 10 and increasing light intensity negatively affects the leaf chlorophyll content, photosynthetic rate and plant growth. The stomatal conductivity and transpiration rate of plants are not consistent under varying light intensities. R. humilis is not mycorrhizal dependent. These results suggest that R. humilis possess a wide range of plastic responses to different environmental conditions that could significantly contribute to the success in invading new habitats.     

Effects of fusaric acid on respiration in maize root mitochondria

The effects of fusaric acid, a phytotoxin produced byFusarium pathogens, on the metabolism of isolated maize root mitochondria and on maize seed germination and seedling growth were investigated. The phytotoxin inhibited basal and coupled respiration when succinate and α-ketoglutarate were the substrates. Coupled respiration dependent on NADH was inhibited, but basal respiration was not. Consistently, succinate cytochromec oxidoreductase activity was decreased whereas NADH cytochromec oxidoreductase was not affected. The ATPase activities of carbonyl cyanide p-trifluoro-methoxyphenyl hydrazone stimulated mitochondria and of freeze-thawing disrupted mitochondria were inhibited. These results indicate that the phytotoxin impairs the respiratory activity of maize mitochondria by at least three mechanisms: (1) it inhibits the flow of electrons between succinate dehydrogenase and coenzyme Q, (2) it inhibits ATPase/ATP-synthase activity and (3) it possibly inhibits α-ketoglutarate dehydrogenase. Seed germination and seedling growth were also affected by fusaric acid with the most pronounced effect on root development. These effects can possibly contribute to the diseases ofFusarium- infected plants     

Seed enhancement with cytokinins: changes in growth and grain yield in salt stressed wheat plants

Cytokinins are often considered abscisic acid (ABA) antagonists and auxins antagonists/synergists in various processes in plants. Seed enhancement (seed priming) with cytokinins is reported to increase plant salt tolerance. It was hypothesized that cytokinins could increase salt tolerance in wheat plants by interacting with other plant hormones, especially auxins and ABA. The present studies were therefore conducted to assess the effects of pre-sowing seed treatment with varying concentrations (100, 150 and 200 mg l⁻¹) of cytokinins (kinetin and benzylaminopurine (BAP)) on germination, growth, and concentrations of free endogenous auxins and ABA in two hexaploid spring wheat (Triticum aestivum L.) cultivars. The primed and non-primed seeds of MH-97 (salt-intolerant) and Inqlab-91 (salt-tolerant) were sown in both Petri dishes in a growth room and in the field after treatment with 15 dS m⁻¹ NaCl salinity. Both experiments were repeated during 2002 and 2003. Among priming agents, kinetin was effective in increasing germination rate in the salt-intolerant and early seedling growth in the salt-tolerant cultivar when compared with hydropriming under salt stress. Thus, during germination and early seedling growth, the cytokinin-priming induced effects were cultivar specific. In contrast, kinetin-priming showed a consistent promoting effect in the field and improved growth and grain yield in both cultivars under salt stress. The BAP-priming did not alleviate the inhibitory effects of salinity stress on the germination and early seedling growth in both cultivars. The increase in growth and grain yield in both cultivars was positively correlated with leaf indoleacetic acid concentration and negatively with ABA concentration under both saline and non-saline conditions. The decrease in ABA concentration in the plants raised from kinetin-primed seeds might reflect diminishing influence of salt stress. However, the possibility of involvement of other hormonal interactions is discussed.     

Implications of calcium nutrition on the response of Phaseolus vulgaris L. to salinity

The effect of Ca²⁺ level in the growth medium on the response of germination and early seedling growth of Phaseolus vulgaris to NaCl salinity was investigated. When NaCl concentration was increased germination and early seedling growth was decreased. The addition of Ca²⁺ to the media increased both germination percentage and seedling growth. Chloride concentrations were not affected by the level of Ca²⁺. Potassium and Ca²⁺ concentrations and transport from roots to shoots were decreased by NaCl, but were restored by increasing Ca²⁺ in the medium. The opposite was true for Na⁺. Leakage of NO₃ ^- and H₂PO₄ ^- was increased by salinity and reduced by high Ca²⁺ in the medium. The results are discussed in terms of the beneficial effects of calcium for plant growth under saline conditions.     

Exogenous application of thiamin promotes growth and antioxidative defense system at initial phases of development in salt-stressed plants of two maize cultivars differing in salinity tolerance

The effects of thiamin (Thi) applied as seed soaking or foliar spray on some key physiological parameters were investigated in two differentially salt-responsive maize (Zea mays L.) cultivars, DK 5783 and Apex 836 F1, exposed to saline stress in two different experiments. An initial experiment (germination experiment) was designed to identify appropriate doses of Thi which could lessen the deleterious effects of salt on plants and screen all available maize cultivars for their differential tolerance to salt stress (100 mM NaCl). The seeds of nine maize cultivars were soaked for 24 h in solutions containing six levels of Thi (25, 50, 75, 100, 125 and 150 mg l^?1). Based on the results obtained from the germination experiment, maize cultivar DK 5783 was found to be the most salt tolerant and Apex 836 as the most sensitive cultivar. Also, of six Thi levels used, two levels (100 and 125 mg l^?1) were chosen for subsequent studies. In the second experiment (glasshouse experiment), two maize cultivars, DK 5783 (salt tolerant) and Apex 836 (salt sensitive) were subjected to saline regime (100 mM NaCl) and two levels of Thi (100 and 125 mg l^?1) applied as foliar spray. Salt stress markedly suppressed shoot and root dry mass, total chlorophylls (“a” + “b”), leaf water potential and maximum fluorescence yield (Fv/Fm) in the plants of both maize cultivars, but it increased proline accumulation, leaf osmotic pressure, malondialdehyde (MDA) and hydrogen peroxide (H₂O₂) concentrations, electrolyte leakage (EL) as well as activities of some key antioxidant enzymes, superoxide dismutase (SOD; EC. 1.15.1.1), peroxidase (POD; EC. 1.11.1.7) and catalase (CAT; EC. 1.11.1.6). Salt-induced reduction in plant growth parameters was higher in the salt-sensitive cultivar, Apex 836, which was found to be associated with relatively increased EL, and MDA and H₂O₂ levels, and decreased activities of the key antioxidant enzymes. Application of Thi as seed soaking or foliar spray partly mitigated the deleterious effects of salinity on plants of both maize cultivars. The most promising effect of Thi on alleviation of adverse effects of salt stress on maize plants was found when it was applied as foliar spray at 100 mg l^?1. Thiamin application considerably reduced tissue Na⁺ concentration, but improved those of N, P, Ca²⁺ and K⁺ in the salt-stressed maize plants. Exogenously applied thiamin-induced growth improvement in maize plants was found to be associated with reduced membrane permeability, MDA and H₂O₂ levels, and altered activities of some key antioxidant enzymes such as CAT, SOD and POD as well as increased photosynthetic pigment concentration under saline regime.     

Polyamine oxidase 3 is involved in salt tolerance at the germination stage in rice

Soil salinity inhibits seed germination and reduces seedling survival rate,resulting in significant yield reductions in crops.Here,we report the identification of a polyamine oxidase,OsPAO3,conferring salt tolerance at the germination stage in rice(Oryza sativa L.),through map-based cloning approach.OsPAO3 is up-regulated under salt stress at the germination stage and highly expressed in various organs.Overexpression of OsPAO3 increases activity of polyamine oxidases,enhancing the polyamine cont...     

Involvement of cis-Zeatin, Dihydrozeatin, and Aromatic Cytokinins in Germination and Seedling Establishment of Maize, Oats, and Lucerne

The aims of this study were to monitor endogenous cytokinin levels during germination and early seedling establishment in oats, maize, and lucerne to determine which cytokinin forms are involved in these processes; to quantify the transfer ribonucleic acid (tRNA)-bound cytokinins; and to measure cytokinin oxidase/dehydrogenase (CKX) activity. Cytokinins were identified using UPLC-MS/MS. The predominant free cytokinins present in the dry seeds were dihydrozeatin-type (DHZ) in lucerne and maize and cZ-type (cis-zeatin) in oats. Upon imbibition, there was a large increase in cZ-type cytokinins in lucerne although the cZ-type cytokinins remained at high levels in oats. In maize, the high concentrations of DHZ-type cytokinins decreased prior to radicle emergence. Four tRNA-bound cytokinins [cis-zeatin riboside (cZR)>N ⁶-(2-isopentenyl)adenosine (iPR), dihydrozeatin riboside (DHZR), trans-zeatin riboside (tZR)] were detected in low concentrations in all three species investigated. CKX activity was measured using an in vitro radioisotope assay. The order of substrate preference was N ⁶-(2-isopentenyl)adenine (iP)>trans-zeatin (tZ)>cZ in all three species, with activity fluctuating as germination proceeded. There was a negative correlation between CKX activity and iP concentrations and a positive correlation between CKX activity and O-glucoside levels. As O-glucosides are less resistant to CKX degradation, they may provide a readily available source of cytokinins that can be converted to physiologically active cytokinins required during germination. Aromatic cytokinins made a very small contribution to the total cytokinin pool and increased only slightly during seedling establishment, suggesting that they do not play a major role in germination.     

On the role of a Lipid-Transfer Protein. Arabidopsis ltp3 mutant is compromised in germination and seedling growth.

Plant Lipid-Transfer Proteins (LTPs) exhibit the ability to reversibly bind/transport lipids in vitro. LTPs have been involved in diverse physiological processes but conclusive evidence on their role has only been presented for a few members, none of them related to seed physiology. Arabidopsis seeds rely on storage oil breakdown to supply carbon skeletons and energy for seedling growth. Here, Arabidopsis ltp3 mutant was analyzed for its ability to germinate and for seedling establishment. Ltp3 showed delayed germination and reduced germination frequency. Seedling growth appeared reduced in the mutant but this growth restriction was rescued by the addition of an exogenous carbon supply, suggesting a defective oil mobilization. Lipid breakdown analysis during seedling growth revealed a differential profile in the mutant compared to the wild type. The involvement of LTP3 in germination and seedling growth and its relationship with the lipid transfer ability of this protein is discussed.     

Seed size effect on seedling growth under different light conditions in the clonal herb Ligularia virgaurea in Qinghai-Tibet Plateau

We studied the influence of seed size on germination, seedling growth and seedling responses to light in Ligularia virgaurea, a clonal herb native to the Qinghai-Tibet Plateau. (1) Under unshaded conditions, large seeds had significantly (P < 0.001) higher rates of germination than did small seeds. Both large and small seeds showed significantly reduced levels of germination under shaded conditions. The magnitude of this effect was greater for small seeds than for large seed. (2) Seedlings from large seeds had significantly higher rates of biomass accumulation (g · day⁻¹) than did seedlings from small seeds. The total biomass of seedlings from larger seeds is larger than that from smaller ones. And seedlings from large and small seeds also differed in biomass allocation. (3) Seedlings from small seeds have higher relative growth rates (RGR; g · g⁻¹ · day⁻¹) than do seedlings from large seeds under both shaded and unshaded conditions. In contrast, there was no significant difference in leaf area ratio (LAR), specific leaf area (SLA) or leaf weight ratio (LWR) between seedlings from small and large seeds. RGR, LAR, SLA and LWR were all significantly higher in seedlings grown under shaded conditions than under unshaded conditions.     

Pathogenicity variation in Fusarium verticillioides populations isolated from maize in northern Italy

One hundred and eighty one strains were selected among Fusarium verticillioides populations isolated from maize samples collected in three fields located in northern Italy. All the isolates were tested for their pathogenicity on maize seeds by assessing the seed germination percentages and the percentage infection indexes concerning seed colonization, radicle decay and coleoptile rot. Fusarium verticillioides strains did not affect seed germination even in presence of high seed colonization, but showed a variable pathogenic behavior according to the maize growth stages. Seedborne F. verticillioides population as well as strains isolated at maturity was effective in seed colonization and in inducing coleoptile rot, not causing however serious radicle decay. Only populations isolated at seedling and pre-silking stages showed high radicle decay ability. These results provide baseline information on F. verticillioides pathogenicity. They constitute an important input for further investigation of F. verticillioides biology in order to define its evolutionary potential.     

Differential Effects of Plant Growth-Promoting Rhizobacteria on Maize Growth and Cadmium Uptake

Maize is a plant known for food, feed, and energy value, but being a greater biomass, it may also be utilized to extract pollutants from soil. Plant growth-promoting rhizobacteria (PGPR) may act as biofertilizer to improve plant health and indirectly may enhance metal extraction. This study focuses on five bacterial strains isolated from the vegetable (Bitter gourd) rhizosphere irrigated with industrial effluent and characterized for various plant growth-promoting activities. Based on 16S rRNA gene sequencing, bacterial strains belonging to the genera, Bacillus (CIK-517, CIK-519), Klebsiella (CIK-518), Leifsonia (CIK-521), and Enterobacter (CIK-521R), were tested for their ability to promote maize growth in axenic conditions. Results showed negative and positive regulation of maize growth by the exogenous application of Cd and PGPR, respectively. Seed germination assays revealed significant reduction in relative seedling growth of maize cultivars upon Cd exposure (0–80 mg Cd L^?1). The tested strains showed tolerance to Cd (1.78–4.45 mmol L^?1) and were positive for catalase, oxidase, phosphate solubilization, exopolysaccharide (EPS), and auxin production, whereas CIK-518, CIK-519, and CIK-521R were negative for EPS, phosphate solubilization, and oxidase activities, respectively. Bacterial strains significantly increased shoot/root growth and their dry biomass in normal and Cd-contaminated soil as compared to their respective controls. None of the strains showed significant effects on relative water content or membrane permeability; however, Cd uptake significantly increased in plant tissues upon bacterial inoculation. Bacterial strains CIK-518 and CIK-521R are effective colonizers and thus can be potential inoculants to promote maize growth and Cd extraction/stabilization in Cd-contaminated soil.     

Plant growth hormones suppress the development of Harpophora maydis,the cause of late wilt in maize

Late wilt, a severe vascular disease of maize caused by the fungus Harpophora maydis, is characterized by rapid wilting of maize plants before tasseling and until shortly before maturity. The pathogen is currently controlled by resistant maize cultivars, but the disease is constantly spreading to new areas. The plant’s late phenological stage at which the disease appears suggests that plant hormones may be involved in the pathogenesis. This work revealed that plant growth hormones, auxin (Indole-3-acetic acid) and cytokinin (kinetin), suppress H. maydis in culture media and in a detached root assay. Kinetin, and even more auxin, caused significant suppression of fungus spore germination. Gibberellic acid did not alter colony growth rate but had a signal suppressive effect on the pathogens’ spore germination. In comparison, ethylene and jasmonic acid, plant senescing and defense response regulators, had minor effects on colony growth and spore germination rate. Their associate hormone, salicylic acid, had a moderate suppressive effect on spore germination and colony growth rate, and a strong influence when combined with auxin. Despite the anti-fungal auxin success in vitro, field experiments with dimethylamine salt of  2,4-dichlorophenoxyacetic acid (that mimics the influence of auxin) failed to suppress the late wilt. The lines of evidence presented here reveal the suppressive influence of the three growth hormones studied on fungal development and are important to encourage further and more in-depth examinations of this intriguing hormonal complex regulatory and its role in the maize-H. maydis interactions.     

麦田套种玉米共生期农田生态环境特征及对夏玉米苗期生长的影响

以登海661、郑单958为试验材料,设置麦田套种和麦收后接茬直播两种不同种植方式对比试验,研究了麦田套种玉米共生期的农田生态环境特征及对玉米苗期生长的影响.结果表明： 麦田套种玉米与直播玉米相比,土壤含水量差异较小;麦田套种玉米耕层（0～5 cm）土壤的种际最高温度比直播玉米低4.8～5.2 ℃,最低温度相近,日平均温度低1.4～1.7 ℃,日变化较小,但均达到种子萌发要求;麦田套种玉米苗期冠层光照强度比直播显著减少,套种玉米地表光强为自然光强的4.4%～10.6%,光照不足是玉米苗弱、迟发的主要原因.与直播相比,套种玉米种子萌发出苗速度和干物质积累速度较慢,叶龄较小,叶片瘦长,株高较矮,玉米苗健壮度下降,单株叶面积较小且叶绿素含量较低;随共生期延长,玉米苗生长受抑制程度增加.在大田生产中,直播可促进种子萌发出苗,有利于夏玉米幼苗的生长发育,形成壮苗.     

Volatile and gaseous metabolites released by germinating seeds of lentil and maize cultivars with different susceptibilities to fusariosis and smut

The effect of volatile and gaseous metabolites released by germinating seeds of lentil cultivars more and less susceptible to fusariosis on the germination of spores ofMucor racemosus, Trichoderma viride, Verticillium dahliae andBotrytis cinerea was found to depend rather on the fungal genus than on the lentil cultivar. However, spores ofFusarium oxysporum reacted more sensitively during germination to the presence of exudates of both cultivars, when the more susceptible lentil displayed a stimulation, the less susceptible one an inhibition of spore germination. The greatest difference in the effect of exudates was observed in the more and less susceptible maize cultivars with respect to the germination of chlamydospores ofUstilago maydis, especially during the first hours of seed germination. Analysis of the exudates of germinating seeds showed the release of a greater amount of ethanol and methanol with acetaldehyde by the more susceptible cultivars of lentil and particularly maize.     

Environmentally dependent expression of heritable variation on early recruitment traits induced by light conditions and provenance in the columnar cactus Pilosocereus leucocephalus

Response to selection depends on heritable genetic variation, which is affected by environmental conditions. The present study experimentally assessed whether the effect of light-related stress and the attenuating effect of shade as a facilitator of seedling germination, survival and growth affect the expression of heritable variation and the potential for a response to selection in the columnar cactus Pilosocereus leucocephalus. A reciprocal transplant experiment combined with the artificial manipulation of light/shade conditions within greenhouses was performed using seeds from controlled crosses of two natural populations (demes PN and SI). Additive genetic variance (V_A), heritability (h²) and the coefficient of variation of additive variance (CV_A) were estimated for per cent of germination, per cent of seedling survival and growth (biomass) under each treatment combination. Although all three recruitment traits showed evidence of different from zero heritability, this result was highly dependent upon the particular transplant site, deme and light treatment combination. The deme that is still not locally adapted (SI) showed significant heritability for all traits and much more potential for a response selection as indicated by a higher CV_A than the locally adapted deme PN. The effect of light conditions on the expression of V_A, h² and CV_A depended on whether the deme was grown in its native or an alien site, but this interaction was only detected for the less adapted deme of SI. Shade conditions promoted by facilitation reduced the evolutionary potential for germination of both demes through an attenuation of genetic differences among genotypes.