Peanut(Arachis hypogaea)is of international importance as a source of oil and protein.Soil salinity is one of themost significant abiotic stress factors affecting the yield and quality of peanuts.This study evaluated ...Peanut(Arachis hypogaea)is of international importance as a source of oil and protein.Soil salinity is one of themost significant abiotic stress factors affecting the yield and quality of peanuts.This study evaluated the potential of a seaweed-based biostimulant to enhance emergence and seedling growth of four peanut cultivars(‘Ayse Hanım’,‘Halis Bey’,‘NC-7’,and‘Albenek’)under increasing salinity levels.The experiment was conducted under greenhouse conditions using a randomized complete block design with four replicates.Seeds were sown in trays and treated with two doses of seaweed extract(0 and 5 g L^(-1))applied directly to the seedbed.Salinity stress was induced by dissolving NaCl in distilled water used for weekly irrigation over six weeks,with salinity levels set at:S_(0):Control,S_(1):50mMNaCl,S_(2):100 mM NaCl,S_(3):150 mM NaCl,and S_(4):200 mM NaCl.Emergence percentage,mean emergence time,shoot and root length,fresh and dry biomass,chlorophyll content,proline,crude protein,and macro-and micronutrient concentrations(Ca,K,P,Mg,Zn,Mn,Cu,and Fe)were measured.The results revealed significant differences between treatments.Seaweed applications showed notable improvements in measured parameters of each variety compared to the salt treated and un-treated control plants of each variety.As salinity stress increased,the emergence percentage,root and shoot length,fresh and dry weight of the plants,crude protein content percentage,leaf chlorophyll contents,Ca,K,P,Mg,Zn,Mn,Cu,and Fe decreased.Similarly,the mean emergence time,and proline contents also decreased with each increase in Na concentration.The best outcomes were obtained in seedlings treated with seaweed under no salinity(0 mM NaCl)and mild salinity(50 mM NaCl)conditions.These findings suggest that seaweeds is an effective biostimulant for improving early-stage growth and stress resilience in peanuts under saline conditions.展开更多
This experiment evaluated the effects of the mycorrhizal fungus Glomus mosseae,Azotobacter chroococcum bacteria,and Biochar on the characteristics of the root system,and yield of the cucumber plant,Cucumis sativus L.,...This experiment evaluated the effects of the mycorrhizal fungus Glomus mosseae,Azotobacter chroococcum bacteria,and Biochar on the characteristics of the root system,and yield of the cucumber plant,Cucumis sativus L.,for this purpose,experiment designed:the first factor is a combination of Mycorrhizae(M)at 35 g plant-1,Azotobacter(A)15 ml plant-1 with a microbial density of 2.2,and three concentrations(0,5,10%)of Biochar sprayed on the plant.The results of the research demonstrated that using mycorrhizae,Azotobacter bacteria,and phosphate rock with half the mineral recommendation(MAR)and spraying Biochar at a concentration of 10%gave the highest rate of infection of the roots with mycorrhizae,amounting to 80%,and the highest dry weight of the root system reached 84.53 g.The highest number of total bacteria was 8.74 log Cfu g m-1 of soil,the highest plant height reached 375.0 cm,the highest dry weight of the shoot reached 101.66 g plant-1,and the highest yield for the greenhouse was 4.501 ton greenhouse-1,followed by the treatment of adding Mycorrhiza with phosphate rock and half the mineral recommendation(MR)with Biochar at a concentration of 10%,then treatment with the addition of mycorrhizae with Azotobacter bacteria with half the mineral recommendation(AR)with 10%of Biochar.It is possible to eliminate half of the mineral recommendation by using these fertilizers,reduce the harmful impact of pollution on the environment and enhance sustainability in agriculture.展开更多
Background Plant tissue culture has emerged as a tool for improving cotton propagation and genetics,but recalcitrance nature of cotton makes it difficult to develop in vitro regeneration.Cotton’s recalcitrance is inf...Background Plant tissue culture has emerged as a tool for improving cotton propagation and genetics,but recalcitrance nature of cotton makes it difficult to develop in vitro regeneration.Cotton’s recalcitrance is influenced by genotype,explant type,and environmental conditions.To overcome these issues,this study uses different machine learning-based predictive models by employing multiple input factors.Cotyledonary node explants of two commercial cotton cultivars(STN-468 and GSN-12)were isolated from 7–8 days old seedlings,preconditioned with 5,10,and 20 mg·L^(-1) kinetin(KIN)for 10 days.Thereafter,explants were postconditioned on full Murashige and Skoog(MS),1/2MS,1/4MS,and full MS+0.05 mg·L^(-1) KIN,cultured in growth room enlightened with red and blue light-emitting diodes(LED)combination.Statistical analysis(analysis of variance,regression analysis)was employed to assess the impact of different treatments on shoot regeneration,with artificial intelligence(AI)models used for confirming the findings.Results GSN-12 exhibited superior shoot regeneration potential compared with STN-468,with an average of 4.99 shoots per explant versus 3.97.Optimal results were achieved with 5 mg·L^(-1) KIN preconditioning,1/4MS postconditioning,and 80%red LED,with maximum of 7.75 shoot count for GSN-12 under these conditions;while STN-468 reached 6.00 shoots under the conditions of 10 mg·L^(-1) KIN preconditioning,MS with 0.05 mg·L^(-1) KIN(postconditioning)and 75.0%red LED.Rooting was successfully achieved with naphthalene acetic acid and activated charcoal.Additionally,three different powerful AI-based models,namely,extreme gradient boost(XGBoost),random forest(RF),and the artificial neural network-based multilayer perceptron(MLP)regression models validated the findings.Conclusion GSN-12 outperformed STN-468 with optimal results from 5 mg·L^(-1) KIN+1/4MS+80%red LED.Application of machine learning-based prediction models to optimize cotton tissue culture protocols for shoot regeneration is helpful to improve cotton regeneration efficiency.展开更多
Chickpea is an important food legume crop of Turkey and is largely grown for human consumption on low moisture or salt-affected soils. The objective of the study was to find the effects of NaCl stress at electrical co...Chickpea is an important food legume crop of Turkey and is largely grown for human consumption on low moisture or salt-affected soils. The objective of the study was to find the effects of NaCl stress at electrical conductivities of 4.5, 8.6, 12.7 and 16.3 dS/m and seed sizes (7, 8 and 9 mm) on germination and early seedling growth of three popular chickpea cultivars (AKN-97, Gokce and Uzunlu-99). Mean frequency of germination, germination time, germination index, root length, shoot length and seedling fresh weight showed seed size-dependent responses ofcultivars to salt stress. In general, small seeds germinated and grew more rapidly compared to medium and large seeds of the same cultivars against all levels of salt stress, with the best results in cultivar Uzunlu-99. No effect of NaCl treatments was observed on frequency of germination; however, a drastic decrease in early seedling growth was recorded at increased NaC1 concentrations. Regression analysis results showed a significantly positive relationship (P〈0.01) between seed size and mean germination time, whereas a significantly negative relationship was recorded between seed size and germination index, root length, shoot length. Moreover, linear regression values apparently confirmed that increased seed size in each cultivar affected decreased germination index, root and shoot lengths with enhanced mean germination time. Thus, it was concluded that the use of small seeds could considerably reduce the production costs of chickpea in salt-affected soils.展开更多
This study was conducted to determine the genetic diversity and relationship among 256 groundnut genotypes of which 132 belong to subsp, hypogaea (Arachis hypogaea L.) and 124 to subsp, fastigiata (Arachis fastigia...This study was conducted to determine the genetic diversity and relationship among 256 groundnut genotypes of which 132 belong to subsp, hypogaea (Arachis hypogaea L.) and 124 to subsp, fastigiata (Arachis fastigiata L.). The collection was evaluated for eight quantitative and five qualitative traits during three consecutive years under Mediterranean climate conditions. Coefficient of variation (CV) significantly differed among the genotypes for all the studied quantitative traits ranged from 9.10 to 33.98%, while the highest CV was recorded for seed yield. The subspecies of hypogaea and fastigiata displayed significant differences for quantitative traits except for numbers of pods per plant and seed yield. Principal com- ponent analyses showed that the first three principal components accounted for 68.14% variation for quantitative traits. Major traits that accounted for the variation by the three principal components (PCs) include days to the first flowering, days to 50% flowering, number of pods per plant and shelling percentage. The groundnut collection also offers wide seed coat color diversity which affects the crop marketability. The information on variations in quantitative and qualitative traits identified in the present investigation provided useful genotypes which would be serving parents. These parental genotypes can be used in groundnut breeding programs to develop desirable cultivars in Mediterranean Basin and globally.展开更多
The main objective of the research is to assess the role of foliar application of silicon(Si)for enhancing the survival ability of wheat under drought stress through improving its morphology,physicochemical and antiox...The main objective of the research is to assess the role of foliar application of silicon(Si)for enhancing the survival ability of wheat under drought stress through improving its morphology,physicochemical and antioxidants activities.Treatments were five doses of Si at the rate of 2,4,6 and 8 mM and a control.After completion of seeds germination,pots were divided into four distinct groups at various field capacity(FC)levels,such as 100%FC(well-irrigated condition),75%FC(slight water deficit),50%FC(modest water deficit)and 25%FC(severe water deficit stress condition).Foliar application of Si at the rate of 2,4,6 and 8 mM and a control were given after 30 days of sowing at the tillering stage of wheat.Findings of the present investigation indicated that increasing the level of water deficit stress reduced the morphological parameters(such as root and shoot fresh and dry-biomass weight)and physico-biochemical events((such as chlorophyll contents by estimating SPAD value),total free amino acid(TFAA),total soluble sugar(TSS),total soluble protein(TSP),total proline(TP),CAT(catalase),POD(peroxidase),SOD(superoxide dismutase)and APX(ascorbate peroxidase))of wheat;while foliar application of Si at 6 mM at tillering stage enhanced the drought tolerance in wheat by increasing morphology and physiochemical characters under all levels of drought stress.Similarly,antioxidants activities in wheat also enhanced by the application of Si at 6 mM under normal as well as all drought stress levels.There-fore,it may be concluded that foliar application of Si at 6 mM at the tillering stage of wheat is an important indication for increasing the drought tolerance by improving the morphology,physico-biochemical and antioxidants activities in plants under deficit water(drought)conditions.展开更多
Five varieties of durum wheat were crossed in full diallel fashion through 2010/2011 growing season. The five parents and their 20 F1 progenies were grown in 2011/2012 at the farm of faculty of agricultural and forest...Five varieties of durum wheat were crossed in full diallel fashion through 2010/2011 growing season. The five parents and their 20 F1 progenies were grown in 2011/2012 at the farm of faculty of agricultural and forestry, Duhok university, Iraq, using randomize complete block design with three replications to estimate heterosis, heritability and some genetic parameters for yield and its components. The results showed highly significant difference among genotypes for all studied traits. The parent Um Raby-5 had a positive general combining ability effect for most traits including grain yield. The crosses (Kokorete71× LD - 357E), (Crezo × Um Rahy-5), (Cimeto×Um Raby-5), (Cimeto×crezo) and (Cimeto × Kokorete 71) exhibited significant desirable specific combining ability effect for most traits. The dominance was greater than additive almost traits. Heritability inbroad sense was high but heritability in narrow sense was low. The expected genetic advance as percent of traits mean was low for all traits. Most crosses showed significant positive heterosis for most traits and two crosses, (Crezo Cimeto) and (Cimeto Urn Raby-5) had the highest positive heterosis for the most studied traits including grain yield.展开更多
Camelina(Camelina sativa L.)is famous for its oil quality and unique fatty acid pattern.Growth and yield of crops reduced under water deficit conditions.Environmental threat such as drought or water deficit condition ...Camelina(Camelina sativa L.)is famous for its oil quality and unique fatty acid pattern.Growth and yield of crops reduced under water deficit conditions.Environmental threat such as drought or water deficit condition is the emerging problem which creates the negative impact on the growth of plants.Based upon the current situation a pot study was performed in rain out-shelter to explore the effect of different plant densities(15,10 and 5 plants per pot)on growth and seed yield of two camelina genotypes under normal(100%WHC)and water deficit(60%WHC)conditions by using completely randomized design with factorial arrangement having three replicates.Results indicated that individual effects of plant densities and water deficit stress levels considerably influenced the growth and seed yield of camelina but interaction effects did not indicate any significant variation.Maximum values of leaf area index(LAI)and crop growth rate(CGR)were recorded in P_(3) treatment(15 plants per pot).However,maximum values of leaf area duration(LAD),net assimilation rate(NAR),yield and yield components were observed in the treatment P_(1)(5 plants per pot).Water deficit condition(60%WHC)significantly minimized the growth,seed yield(0.82 g/m^(2))and yield components of camelina genotypes.Both camelina genotypes(611 and 618)did not differ significantly under water deficit conditions.展开更多
Water is essential for the growth period of crops;however,water unavailability badly affects the growth and physiological attributes of crops,which considerably reduced the yield and yield components in crops.Therefor...Water is essential for the growth period of crops;however,water unavailability badly affects the growth and physiological attributes of crops,which considerably reduced the yield and yield components in crops.Therefore,a pot experiment was conducted to investigate the effect of foliar phosphorus(P)on morphological,gas exchange,biochemical traits,and phosphorus use efficiency(PUE)of maize(Zea mays L.)hybrids grown under normal as well as water deficit situations at the Department of Agronomy,University of Agriculture Faisalabad,Pakistan in 2014.Two different treatments(control and P@8 kg ha^(−1))and four hybrids(Hycorn,31P41,65625,and 32B33)of maize were tested by using a randomized complete block design(RCBD)with three replications.Results showed that the water stress caused a remarkable decline in total soluble protein(9.7%),photosynthetic rate(9.4%)and transpiration rate(13.4%),stomatal conductance(10.2%),and internal CO_(2)rate(20.4%)comparative to well-watered control.An increase of 37.1%,36.8%,and 24.5%were recorded for proline,total soluble sugar,and total free amino acid,respectively.However,foliar P application minimized the negative impact of drought by improving plant growth,physio-biochemical attributes,and PUE in maize plants under water stress conditions.Among the hybrids tested,the hybrid 6525 performed better both under stress and non-stress conditions.These outcomes confirmed that the exogenous application of P improved drought stress tolerance by modulating growth,physio-biochemical attributes,and PUE of maize hybrids.展开更多
Maize forage is poor in protein content which leads to low quality and nutritive value.Regarding the high feed costs of protein supplementations,legumes can be used in livestock nutrition for their high protein conten...Maize forage is poor in protein content which leads to low quality and nutritive value.Regarding the high feed costs of protein supplementations,legumes can be used in livestock nutrition for their high protein content,and thus,provide cost savings.In this study,maize(Zea mays L.)and cowpea(Vigna unguiculata L.)were intercropped in different sowing densities and fertilization with clinoptilolite and their monocropping equivalents were tested to determine the best intercropping system on forage yield and quality.Maize was cultivated alone(75,000 plants·ha^-1)and intercropped with cowpea as follows:75,000 plants·ha-1 of maize and 37,500 plants·ha^-1 of cowpea(MC1),75,000 plants·ha^-1 of maize and 50,000 plants·ha-1 of cowpea(MC2)and 75,000 plants·ha^-1 of maize and 75,000 plants·ha^-1 of cowpea(MC3),in rows alternating with maize.The highest dry matter yield was produced by MC3(23.8 t·ha^-1),and the lowest by SM(20.7 t·ha^-1)in fertilization with clinoptilolite.All intercropped systems had higher crude protein contents,MC1(101 g·kg^-1 DM),MC2(108 g·kg^-1 DM)and MC3(117 g·kg^-1 DM),than the monocrop maize(84 g·kg^-1 DM)in fertilization with clinoptilolite.Intercropping of maize with cowpea and fertilization with clinoptilolite reduced neutral detergent fiber,resulting in increased forage digestibility.Therefore,maize intercropping with cowpea and fertilization with clinoptilolite could substantially increase forage quantity and quality,and decrease requirements for protein supplements as compared with maize monocrop.展开更多
Drought is one of the critical limitations to agricultural soils and crop plants.Scarcity of water is increasing due to climate change that lead to increasing threats to global food security.Therefore,ecofriendly and ...Drought is one of the critical limitations to agricultural soils and crop plants.Scarcity of water is increasing due to climate change that lead to increasing threats to global food security.Therefore,ecofriendly and cost effective strategies are highly desirable for mitigating drought stress along with sustainable and smart agricultural production.The aim of the study was to mitigate DS using seed priming and exogenous supplementation ofβ-aminobutyric acid(BABA)in linseed(Linum usitatissimum L.).Different doses(0,50,100 and 150μM)of BABA were used for seed priming agent and foliar spraying under three soil moisture levels viz.,25%(SM25),45%(SM45)and 65%(SM65).The response variables of both experiments included different agro-botanical traits and oxidative stress indicators such as melondialdehyde content,free proline accumulation,and antioxidant defense in plants.The linseed plants showed water stress at SM25 that reduced plant height,number of branches per plant,time taken to flower initiation and heading,and root and shoot dry weights.Additionally,the number of capsules and seeds per capsule showed a significant decline at SM25,which led to a drastic reduction in 100-seed weight yield in linseed plants in both experiments.However,seed priming and foliar supplementation with of BABA(50–100μM)significantly improved these morpho-agronomical attributes in linseed plants under DS.The results revealed that the BABA was fully active in linseed plants at SM25.Interestingly,the combination of SM25 with BABA significantly improved the antioxidant enzymes superoxide dismutase(SOD),catalase(CAT),ascorbate peroxidase(APX),and peroxidase(POD)activity,which significantly enhanced DS tolerance in linseed plants.These findings might be useful to oil seed breeders and farmers linseed for breeding program in linseed plants as well as sustainable agricultural production of oil seed crop plants.展开更多
Drought is the major detrimental environmental factor for wheat(Triticum aestivum L.)production.The exploration of genetic patterns underlying drought tolerance is of great significance.Here we report the gene actions...Drought is the major detrimental environmental factor for wheat(Triticum aestivum L.)production.The exploration of genetic patterns underlying drought tolerance is of great significance.Here we report the gene actions controlling the phenological traits using the line×tester model studying 27 crosses and 12 parents under normal irrigation and drought conditions.The results interpreted via multiple analysis(mean performance,correlations,principal component,genetic analysis,heterotic and heterobeltiotic potential)disclosed highly significant differences among germplasm.The phenological waxiness traits(glume,boom,and sheath)were strongly interlinked.Flag leaf area exhibits a positive association with peduncle and spike length under drought.The growing degree days(heat-units)greatly influence spikelets and grains per spike,however,the grain yield/plant was significantly reduced(17.44 g to 13.25 g)under drought.The principal components based on eigenvalue indicated significant PCs(first-seven)accounted for 79.9%and 73.9%of total variability under normal irrigation and drought,respectively.The investigated yield traits showed complex genetic behaviour.The genetic advance confronted a moderate to high heritability for spikelets/spike and grain yield/plant.The traits conditioned by dominant genetic effects in normal irrigation were inversely controlled by additive genetic effects under drought and vice versa.The magnitude of dominance effects for phenological and yield traits,i.e.,leaf twist,auricle hairiness,grain yield/plant,spikelets,and grains/spike suggests that selection by the pedigree method is appropriate for improving these traits under normal irrigation conditions and could serve as an indirect selection index for improving yield-oriented traits in wheat populations for drought tolerance.However,the phenotypic selection could be more than effective for traits conditioned by additive genetic effects under drought.We suggest five significant cross combinations based on heterotic and heterobeltiotic potential of wheat genotypes for improved yield and enhanced biological production of wheat in advanced generations under drought.展开更多
Abiotic stresses at different growth stages in the life of plants negatively affect yield productivity.Therefore,plants,including Amaranthus hypochondriacus,develop adaptive strategies to face the stresses and expand ...Abiotic stresses at different growth stages in the life of plants negatively affect yield productivity.Therefore,plants,including Amaranthus hypochondriacus,develop adaptive strategies to face the stresses and expand functional diversification.In plants,the mitochondrial transcription termination factors(mTERF)are essential functions in regulation,and organelles(mitochondria and chloroplasts)control gene expression(OGE)under several stress conditions.Based on the in-silico-wide genome and transcriptome analysis,twenty-four mTERF genes were detected in the main targeted mitochondria organelles clustered into three different main groups.The chromosomal location and gene duplication analysis indicated one segmental and one tandem duplication in the genome.The promoter region cis-elements assessment showed that there wasa high correlation between the growth and development process,stress,and hormone responses of these genes.Expression profiling of mTERF genes under salt stress revealed a total number of 24 gene families with seven upregulated and 6 down-regulated genes in drought and salt stress.However,Ah-mTERF-8 and 14 indicated up-regulation under drought stress.Ah-mTERF-4,6,14,15,17,and 20 were up-regulated under salt stress.Molecular characterization and identification through the in-silico study of the specific genes and their differential expression profiling demonstrated the role of mTERF proteins throughout their reaction to growth and development,during stress in A.hypochondriacus.These results demonstrated that mTERF genes were significantly related to the abiotic stress responses.展开更多
Aromatic and medicinal plant species having small seeds havefield emergence problems due to low nutrient supply.Therefore,Pimpinella anisum seeds were hydro and osmoprimed with 100 mM MgCl_(2),CaCl_(2),and ZnCl_(2),for...Aromatic and medicinal plant species having small seeds havefield emergence problems due to low nutrient supply.Therefore,Pimpinella anisum seeds were hydro and osmoprimed with 100 mM MgCl_(2),CaCl_(2),and ZnCl_(2),for 2,4,and 8 h each to compare their growth attributes during germination and seedling establishment stages.Nontreated seeds were used as control.Both hydro and osmo primed seeds were dried for 48 h before,they were sown in plastic trays in growth room conditions to see the impact of treatments on seedling emergence and growth.The maximum root length(12.90 cm),fresh weight(256.30 mg plant^(-1)),and mean emergence time(MET)were recorded from 8 h MgCl_(2) primed seeds.Similarly,the maximum(97.50,and 98.00%)emergence percentage was observed using 8 h MgCl_(2) primed seeds and nontreated seeds(control treatment).The evaluation of parameters like chlorophyll contents and electrical conductivity showed the 8 h MgCl_(2) priming as the optimum treatment.The evaluation of parameters like chlorophyll contents and electrical conductivity showed the 8 h MgCl_(2) priming as the optimum treatment.The result suggests MgCl_(2) priming worked synergistically and improved seed-ling growth attributes under greenhouse conditions.The chlorophyll content ranged 25.94–35.69 SPAD unit.The highest chlorophyll content was obtained from the seedlings obtained from 4 h CaCl_(2) treatment,which were statistically similar to the chlorophyll contents of the seedlings obtained after 8 h MgCl_(2) treatment and nontreated seeds(control treatment).All other treatments showed inhibition in the chlorophyll contents and growth attributes of the seedlings.In conclusion,MgCl_(2) osmopriming treatments were significantly promotive and better compared to hydro-priming and osmopriming treatments including control treatment in terms of anise seeds germination and emergence.展开更多
This study aimed to determine whether NIR spectroscopy and protein band analysis can differentiate the grain samples of 15 wheat genotypes stored for different periods:Group Ⅰ(91weeks),Group Ⅱ(143weeks),Group Ⅲ(194...This study aimed to determine whether NIR spectroscopy and protein band analysis can differentiate the grain samples of 15 wheat genotypes stored for different periods:Group Ⅰ(91weeks),Group Ⅱ(143weeks),Group Ⅲ(194weeks),and GroupⅣ(246weeks).Samples were harvested from previously-conducted field trials,and stored at+4 ℃.A-PAGE and SDS-PAGE methods were utilized to separate gliadin and glutenin fractions,respectively.A qualitative calibration model based on the Support Vector Machine(SVM)method was generated and validated using NIR spectra taken from samples.Results indicated storage length did not have an effect on molecular band fractions.Use of this method would not be considered an effective tool for discrimination of samples stored for different lengths of time.Spectral techniques may have potential in sorting samples based on their storage time.The SVM calibration model generated here had an acceptable true classification rate(over 80%)for separating all groups,while only GroupsⅡ andⅣ were precisely separated(100%true classification rate)in the validation step.展开更多
Maize being sub-tropical crop is sensitive to water deficit during the early growth stages;particularly clay-rich soil,due to the compaction of the soil.It is well-documented that potential sub-surface drip irrigation...Maize being sub-tropical crop is sensitive to water deficit during the early growth stages;particularly clay-rich soil,due to the compaction of the soil.It is well-documented that potential sub-surface drip irrigation(SDI)(Full irrigation;SDIFull(100%field capacity(FC)),Deficit irrigation;SDIDeficit(70%FC))improves water use efficiency,which leads to increased crop productivity;since it has a constraint that SDI excludes soil air around the root-zone during irrigation events,which alter the root function and crop performance.Additionally,in clay-rich soils,the root system of plants generally suffers the limitation of oxygen,particularly the temporal hypoxia,and occasionally from root anoxia;while SDI system accomplishes with the aerating stream of irrigation in the rhizosphere could provide oxygen root environment.The oxygen can be introduced into the irrigation stream of SDI through two ways:the venturi principle,or by using solutions of hydrogen peroxide through the air injection system.Therefore,the application of hydrogen peroxide(H_(2)O_(2);HP)can mitigate the adverse effect of soil compactness and also lead to improving the growth,yield and yield attributes of maize in clay-rich soil.Considering the burning issue,a field study was conducted in consecutive two seasons of 2017 and 2018;where hybrid maize was cultivated as a second crop,to evaluate the effect of liquid-injection of H_(2)O_(2)(HP)into the irrigation stream of SDI on the performance of maize in a clay-rich soil field of Adana,Turkey.When soil water content decreased in 50%of avail-able water,irrigation was performed.The amount of water applied to reach the soil water content to the field capacity is SDIFull(100%FC)and 70%FC of this water is SDIDeficit(70%FC).In the irrigation program,hydrogen peroxide(HP)was applied at intervals of 7 days on average according to available water with and without HP:SDIFull(100%FC)+0 ppm HP with full SDI irrigation;SDIFull(100%FC)+250 ppm HP with deficit SDI irrigation;SDIDeficit(70%FC)+0 ppm HP,SDIDeficit(70%FC)+250 ppm HP and SDIDeficit(70%FC)+500 ppm HP.Deficit irrigation(SDIDeficit(70%FC))program was started from tasseling stage and continued up to the physiological maturity stage with sub-soil drip irrigation.H_(2)O_(2) was applied 3 times during the growing season.Two years’results revealed that the liquid-injection of H_(2)O_(2) into the irrigation stream of SDI improved the growth and yield-related attributes and grain yield of maize.Based on the obtained results,during the extreme climatic condition in the year 2017,SDIFull(100%FC)+250 ppm HP was more effective than SDIFull(100%FC)+0 ppm HP on all traits for relative to full irrigation.While,during the favourable climatic condition in the 2018 season,SDIFull(100%FC)+250 ppm HP was more effective than full irrigation with SDIFull(100%FC)+0 ppm HP for the grain yield,grains,and SPAD value.Accordingly,the most effective treatment was SDIFull(100%FC)+250 ppm HP,as it gave the highest growth and yield-related attributes and grain yield of maize followed by SDIDeficit(70%FC)+250 ppm HP.Therefore,SDIFull with 250 ppm H_(2)O_(2) using as liquid-injection may be recommended to mitigate the adverse effect of soil compactness particularly water-deficit stress in clay-rich soil for the sustainability of maize production.展开更多
Maize is cultivated extensively throughout the world and has the highest production among cereals.However,Northern corn leaf blight(NCLB)disease caused by Exherohilum turcicum,is the most devastating limiting factor o...Maize is cultivated extensively throughout the world and has the highest production among cereals.However,Northern corn leaf blight(NCLB)disease caused by Exherohilum turcicum,is the most devastating limiting factor of maize production.The disease causes immense losses to corn yield if it develops prior or during the tasseling and silking stages of crop development.It has a worldwide distribution and its development is favoured by cool to moderate temperatures with high relative humidity.The prevalence of the disease has increased in recent years and new races of the pathogen have been reported worldwide.The fungus E.turcicum is highly variable in nature.Though different management strategies have proved effective to reduce economic losses from NCLB,the development of varieties with resistance to E.turcicum is the most efficient and inexpensive way for disease management.Qualitative resistance for NCLB governed by Ht genes is a race-specific resistance which leads to a higher level of resistance.However,some Ht genes can easily become ineffective under the high pressure of virulent strains of the pathogen.Hence,it is imperative to understand and examine the consistency of the genomic locations of quantitative trait loci for resistance to NCLB in diverse maize populations.The breeding approaches for pyramiding resistant genes against E.turcicum in maize can impart NCLB resistance under high disease pressure environments.Furthermore,the genome editing approaches like CRISPR-cas9 and RNAi can also prove vital for developing NCLB resistant maize cultivars.As such this review delivers emphasis on the importance and current status of the disease,racial spectrum of the pathogen,genetic nature and breeding approaches for resistance and management strategies of the disease in a sustainable manner.展开更多
Background Cotton(Gossypium hirsutum L.),adapted to tropical and subtropical regions of the world,is highly sensitive to low temperatures throughout its life cycle.The objective of this study was to evaluate the mitig...Background Cotton(Gossypium hirsutum L.),adapted to tropical and subtropical regions of the world,is highly sensitive to low temperatures throughout its life cycle.The objective of this study was to evaluate the mitigating effects of different doses of animal-derived(0.25%,0.50%,and 1.00% Isabion■),seaweed-based(0.165%,0.330%,and 0.660% Proton■)biostimulants,as well as a copper(Cu)-containing fungicide application,on cotton cultivar Lazer seedlings at the four true leaves(V4)stage.The plants were exposed to a low temperature of 5℃for 48 h,and the changes in morphological(seedling fresh and dry weight,plant height,and stem diameter)and physiological parameters(leaf temperature,chlorophyll content,relative water content,electrolyte leakage,and relative injury)were examined.Results The results revealed that chilling stress reduced plant growth,while biostimulants helped protect the plants and overcome the adverse effects of chilling.Under chilling stress,there was a considerable reduction in seedling fresh weight(SFW),seedling dry weight(SDW),plant height(PH),stem diameter(SD),leaf temperature(LT),and relative water content(RWC).Cotton seedlings treated with the animal-derived biostimulants showed significantly enhanced SFW,SDW,PH,SD,LT,chlorophyll content(Chl),electrolyte leakage(EL),and relative injury(RI),although there were no positive changes in RWC.No significant differences in the morphological traits were observed among the doses of seaweed biostimulants.For SDW,PH,EL,and RI,the best results were obtained with the application of a fungicide containing copper.Conclusion These results show the efficiency of the biostimulant and fungicide treatments in mitigating low-temperature stress in cotton seedlings.Applying a copper-containing fungicide to cotton seedlings helped to counteract the negative effects of low-temperature stress and to protect the plants from damage by maintaining electrolyte balance.Among the biostimulant applications,all levels of animal-derived biostimulant applications,as well as the 0.660% level of the seaweed-derived biostimulant,led to increased tolerance of cotton plants to chilling stress.展开更多
The aim of this study was to determine the GY (grain yield) and some quality characters of durum wheat landraces under Thrace Region ecological conditions. This study was carried out in randomized complete blocks desi...The aim of this study was to determine the GY (grain yield) and some quality characters of durum wheat landraces under Thrace Region ecological conditions. This study was carried out in randomized complete blocks design with three replications in the locations of Tekirdag, Edirne, Klrklareli and Lüleburgaz during the growing years of 2009 and 2010. In the research, 20 durum wheat landraces obtained from different regions of Turkey and 5 obsolete durum wheat cultivars were used as the experimental material. It was determined that the GY, TW (test weight) and PC (protein content) in the first year were higher than the second year in this study. The highest values for GY, TGW (thousand grain weight), and TW and GVR (grain vitreousness rate) were determined in Tekirdag location, while the highest PC was determined in Edirne location. The results of the research showed that GY varied between 321.17-470.33 kg da^-1 in Tekirdag, 301.33-404.00 kg da^-1 in Edirne;197.50-334.67 kg da^-1 in K?rklareli and 280.00-501.33 kg da^-1 in Lüleburgaz. TGWs were determined between 38.17-44.50 g of Tekirdag, 36.00-43.00 g of Edirne, 38.43-43.67 g of Karklareli and 35.33-45.67 g of Lüleburgaz. TW of Tekirdag, Edirne, Karklareli and Lüleburgaz locations changed between 74.67-79.33 kg hl^-1, 69.33-76.83 kg hl^-1, 70.00-75.17 kg hl^-1 and 71.00-77.50 kg hl^-1, respectively. The GVR was determined among 85.00-96.83% in Tekirdag, 68.33-93.33% in Edirne, 67.83-93.83% in Klrklareli, and 85.17-98.17% in Lüleburgaz. The PC of grains was measured among 13.32-14.95% in Tekirdag, 14.90-16.25% in Edirne, 14.27-16.17% in K?rklareli, and 13.40-16.53% in Lüleburgaz. It was determined that Dicle and Dicle-13 landraces for GY and TW, Adlyaman landrace for TGW,Canakkale and Akbugday landraces for the GVR, and Iskenderun, Akbu?day, Erzincan landraces for PC have the highest values.展开更多
Cadmium (Cd) contamination of agricultural soils may pose severe risks and hazards for humans through food chain, as crop plants accumulate Cd in their edible tissues. Cd translocation from soil to plant is largely ...Cadmium (Cd) contamination of agricultural soils may pose severe risks and hazards for humans through food chain, as crop plants accumulate Cd in their edible tissues. Cd translocation from soil to plant is largely dependent on soil and plant type. Cd accumulation occurs much more in crop plants grown in soils with severe zinc (Zn) deficiency and durum wheat tends to accumulate more Cd in grain than the other cereals. The objective of this study was to evaluate the alleviating effect of Zn fertilization on Cd accumulation in durum wheat grain. A pot experiment including foliar Zn application of 0.3% w/v ZnSO4 and soil Cd applications of 0, 0.2 and 1.0 mg/kg was carried out in a completely randomized design using a Zn-deficient soil. Grain Cd concentration of plants receiving 0 mg/kg Cd was 31 μg/kg, whereas with 0.2 mg/kg and 1.0 mg/kg Cd applications it increased to the levels of 215 μg/kg and 1,489 μg/kg, respectively. Along with 0.3% ZnSO4 leaf applications, grain Cd concentrations decreased to 171 μg/kg and 754 μg/kg, by a reduction of 20.5% and 49.3%, respectively. In conclusion, it was determined that leaf applied Zn fertilizer might alleviate Cd accumulation in durum wheat grain in Zn deficiency conditions.展开更多
文摘Peanut(Arachis hypogaea)is of international importance as a source of oil and protein.Soil salinity is one of themost significant abiotic stress factors affecting the yield and quality of peanuts.This study evaluated the potential of a seaweed-based biostimulant to enhance emergence and seedling growth of four peanut cultivars(‘Ayse Hanım’,‘Halis Bey’,‘NC-7’,and‘Albenek’)under increasing salinity levels.The experiment was conducted under greenhouse conditions using a randomized complete block design with four replicates.Seeds were sown in trays and treated with two doses of seaweed extract(0 and 5 g L^(-1))applied directly to the seedbed.Salinity stress was induced by dissolving NaCl in distilled water used for weekly irrigation over six weeks,with salinity levels set at:S_(0):Control,S_(1):50mMNaCl,S_(2):100 mM NaCl,S_(3):150 mM NaCl,and S_(4):200 mM NaCl.Emergence percentage,mean emergence time,shoot and root length,fresh and dry biomass,chlorophyll content,proline,crude protein,and macro-and micronutrient concentrations(Ca,K,P,Mg,Zn,Mn,Cu,and Fe)were measured.The results revealed significant differences between treatments.Seaweed applications showed notable improvements in measured parameters of each variety compared to the salt treated and un-treated control plants of each variety.As salinity stress increased,the emergence percentage,root and shoot length,fresh and dry weight of the plants,crude protein content percentage,leaf chlorophyll contents,Ca,K,P,Mg,Zn,Mn,Cu,and Fe decreased.Similarly,the mean emergence time,and proline contents also decreased with each increase in Na concentration.The best outcomes were obtained in seedlings treated with seaweed under no salinity(0 mM NaCl)and mild salinity(50 mM NaCl)conditions.These findings suggest that seaweeds is an effective biostimulant for improving early-stage growth and stress resilience in peanuts under saline conditions.
文摘This experiment evaluated the effects of the mycorrhizal fungus Glomus mosseae,Azotobacter chroococcum bacteria,and Biochar on the characteristics of the root system,and yield of the cucumber plant,Cucumis sativus L.,for this purpose,experiment designed:the first factor is a combination of Mycorrhizae(M)at 35 g plant-1,Azotobacter(A)15 ml plant-1 with a microbial density of 2.2,and three concentrations(0,5,10%)of Biochar sprayed on the plant.The results of the research demonstrated that using mycorrhizae,Azotobacter bacteria,and phosphate rock with half the mineral recommendation(MAR)and spraying Biochar at a concentration of 10%gave the highest rate of infection of the roots with mycorrhizae,amounting to 80%,and the highest dry weight of the root system reached 84.53 g.The highest number of total bacteria was 8.74 log Cfu g m-1 of soil,the highest plant height reached 375.0 cm,the highest dry weight of the shoot reached 101.66 g plant-1,and the highest yield for the greenhouse was 4.501 ton greenhouse-1,followed by the treatment of adding Mycorrhiza with phosphate rock and half the mineral recommendation(MR)with Biochar at a concentration of 10%,then treatment with the addition of mycorrhizae with Azotobacter bacteria with half the mineral recommendation(AR)with 10%of Biochar.It is possible to eliminate half of the mineral recommendation by using these fertilizers,reduce the harmful impact of pollution on the environment and enhance sustainability in agriculture.
文摘Background Plant tissue culture has emerged as a tool for improving cotton propagation and genetics,but recalcitrance nature of cotton makes it difficult to develop in vitro regeneration.Cotton’s recalcitrance is influenced by genotype,explant type,and environmental conditions.To overcome these issues,this study uses different machine learning-based predictive models by employing multiple input factors.Cotyledonary node explants of two commercial cotton cultivars(STN-468 and GSN-12)were isolated from 7–8 days old seedlings,preconditioned with 5,10,and 20 mg·L^(-1) kinetin(KIN)for 10 days.Thereafter,explants were postconditioned on full Murashige and Skoog(MS),1/2MS,1/4MS,and full MS+0.05 mg·L^(-1) KIN,cultured in growth room enlightened with red and blue light-emitting diodes(LED)combination.Statistical analysis(analysis of variance,regression analysis)was employed to assess the impact of different treatments on shoot regeneration,with artificial intelligence(AI)models used for confirming the findings.Results GSN-12 exhibited superior shoot regeneration potential compared with STN-468,with an average of 4.99 shoots per explant versus 3.97.Optimal results were achieved with 5 mg·L^(-1) KIN preconditioning,1/4MS postconditioning,and 80%red LED,with maximum of 7.75 shoot count for GSN-12 under these conditions;while STN-468 reached 6.00 shoots under the conditions of 10 mg·L^(-1) KIN preconditioning,MS with 0.05 mg·L^(-1) KIN(postconditioning)and 75.0%red LED.Rooting was successfully achieved with naphthalene acetic acid and activated charcoal.Additionally,three different powerful AI-based models,namely,extreme gradient boost(XGBoost),random forest(RF),and the artificial neural network-based multilayer perceptron(MLP)regression models validated the findings.Conclusion GSN-12 outperformed STN-468 with optimal results from 5 mg·L^(-1) KIN+1/4MS+80%red LED.Application of machine learning-based prediction models to optimize cotton tissue culture protocols for shoot regeneration is helpful to improve cotton regeneration efficiency.
文摘Chickpea is an important food legume crop of Turkey and is largely grown for human consumption on low moisture or salt-affected soils. The objective of the study was to find the effects of NaCl stress at electrical conductivities of 4.5, 8.6, 12.7 and 16.3 dS/m and seed sizes (7, 8 and 9 mm) on germination and early seedling growth of three popular chickpea cultivars (AKN-97, Gokce and Uzunlu-99). Mean frequency of germination, germination time, germination index, root length, shoot length and seedling fresh weight showed seed size-dependent responses ofcultivars to salt stress. In general, small seeds germinated and grew more rapidly compared to medium and large seeds of the same cultivars against all levels of salt stress, with the best results in cultivar Uzunlu-99. No effect of NaCl treatments was observed on frequency of germination; however, a drastic decrease in early seedling growth was recorded at increased NaC1 concentrations. Regression analysis results showed a significantly positive relationship (P〈0.01) between seed size and mean germination time, whereas a significantly negative relationship was recorded between seed size and germination index, root length, shoot length. Moreover, linear regression values apparently confirmed that increased seed size in each cultivar affected decreased germination index, root and shoot lengths with enhanced mean germination time. Thus, it was concluded that the use of small seeds could considerably reduce the production costs of chickpea in salt-affected soils.
基金supported by the Ministry of Science,Industry and Technology of Turkey (SANTEZ-01527-STZ-2012-2)the Scientific Research Projects Coordination Unit of Akdeniz University,Turkey (FDK-2015-673)
文摘This study was conducted to determine the genetic diversity and relationship among 256 groundnut genotypes of which 132 belong to subsp, hypogaea (Arachis hypogaea L.) and 124 to subsp, fastigiata (Arachis fastigiata L.). The collection was evaluated for eight quantitative and five qualitative traits during three consecutive years under Mediterranean climate conditions. Coefficient of variation (CV) significantly differed among the genotypes for all the studied quantitative traits ranged from 9.10 to 33.98%, while the highest CV was recorded for seed yield. The subspecies of hypogaea and fastigiata displayed significant differences for quantitative traits except for numbers of pods per plant and seed yield. Principal com- ponent analyses showed that the first three principal components accounted for 68.14% variation for quantitative traits. Major traits that accounted for the variation by the three principal components (PCs) include days to the first flowering, days to 50% flowering, number of pods per plant and shelling percentage. The groundnut collection also offers wide seed coat color diversity which affects the crop marketability. The information on variations in quantitative and qualitative traits identified in the present investigation provided useful genotypes which would be serving parents. These parental genotypes can be used in groundnut breeding programs to develop desirable cultivars in Mediterranean Basin and globally.
文摘The main objective of the research is to assess the role of foliar application of silicon(Si)for enhancing the survival ability of wheat under drought stress through improving its morphology,physicochemical and antioxidants activities.Treatments were five doses of Si at the rate of 2,4,6 and 8 mM and a control.After completion of seeds germination,pots were divided into four distinct groups at various field capacity(FC)levels,such as 100%FC(well-irrigated condition),75%FC(slight water deficit),50%FC(modest water deficit)and 25%FC(severe water deficit stress condition).Foliar application of Si at the rate of 2,4,6 and 8 mM and a control were given after 30 days of sowing at the tillering stage of wheat.Findings of the present investigation indicated that increasing the level of water deficit stress reduced the morphological parameters(such as root and shoot fresh and dry-biomass weight)and physico-biochemical events((such as chlorophyll contents by estimating SPAD value),total free amino acid(TFAA),total soluble sugar(TSS),total soluble protein(TSP),total proline(TP),CAT(catalase),POD(peroxidase),SOD(superoxide dismutase)and APX(ascorbate peroxidase))of wheat;while foliar application of Si at 6 mM at tillering stage enhanced the drought tolerance in wheat by increasing morphology and physiochemical characters under all levels of drought stress.Similarly,antioxidants activities in wheat also enhanced by the application of Si at 6 mM under normal as well as all drought stress levels.There-fore,it may be concluded that foliar application of Si at 6 mM at the tillering stage of wheat is an important indication for increasing the drought tolerance by improving the morphology,physico-biochemical and antioxidants activities in plants under deficit water(drought)conditions.
文摘Five varieties of durum wheat were crossed in full diallel fashion through 2010/2011 growing season. The five parents and their 20 F1 progenies were grown in 2011/2012 at the farm of faculty of agricultural and forestry, Duhok university, Iraq, using randomize complete block design with three replications to estimate heterosis, heritability and some genetic parameters for yield and its components. The results showed highly significant difference among genotypes for all studied traits. The parent Um Raby-5 had a positive general combining ability effect for most traits including grain yield. The crosses (Kokorete71× LD - 357E), (Crezo × Um Rahy-5), (Cimeto×Um Raby-5), (Cimeto×crezo) and (Cimeto × Kokorete 71) exhibited significant desirable specific combining ability effect for most traits. The dominance was greater than additive almost traits. Heritability inbroad sense was high but heritability in narrow sense was low. The expected genetic advance as percent of traits mean was low for all traits. Most crosses showed significant positive heterosis for most traits and two crosses, (Crezo Cimeto) and (Cimeto Urn Raby-5) had the highest positive heterosis for the most studied traits including grain yield.
基金This project was funded by the Higher Education Commission of Pakistan.
文摘Camelina(Camelina sativa L.)is famous for its oil quality and unique fatty acid pattern.Growth and yield of crops reduced under water deficit conditions.Environmental threat such as drought or water deficit condition is the emerging problem which creates the negative impact on the growth of plants.Based upon the current situation a pot study was performed in rain out-shelter to explore the effect of different plant densities(15,10 and 5 plants per pot)on growth and seed yield of two camelina genotypes under normal(100%WHC)and water deficit(60%WHC)conditions by using completely randomized design with factorial arrangement having three replicates.Results indicated that individual effects of plant densities and water deficit stress levels considerably influenced the growth and seed yield of camelina but interaction effects did not indicate any significant variation.Maximum values of leaf area index(LAI)and crop growth rate(CGR)were recorded in P_(3) treatment(15 plants per pot).However,maximum values of leaf area duration(LAD),net assimilation rate(NAR),yield and yield components were observed in the treatment P_(1)(5 plants per pot).Water deficit condition(60%WHC)significantly minimized the growth,seed yield(0.82 g/m^(2))and yield components of camelina genotypes.Both camelina genotypes(611 and 618)did not differ significantly under water deficit conditions.
文摘Water is essential for the growth period of crops;however,water unavailability badly affects the growth and physiological attributes of crops,which considerably reduced the yield and yield components in crops.Therefore,a pot experiment was conducted to investigate the effect of foliar phosphorus(P)on morphological,gas exchange,biochemical traits,and phosphorus use efficiency(PUE)of maize(Zea mays L.)hybrids grown under normal as well as water deficit situations at the Department of Agronomy,University of Agriculture Faisalabad,Pakistan in 2014.Two different treatments(control and P@8 kg ha^(−1))and four hybrids(Hycorn,31P41,65625,and 32B33)of maize were tested by using a randomized complete block design(RCBD)with three replications.Results showed that the water stress caused a remarkable decline in total soluble protein(9.7%),photosynthetic rate(9.4%)and transpiration rate(13.4%),stomatal conductance(10.2%),and internal CO_(2)rate(20.4%)comparative to well-watered control.An increase of 37.1%,36.8%,and 24.5%were recorded for proline,total soluble sugar,and total free amino acid,respectively.However,foliar P application minimized the negative impact of drought by improving plant growth,physio-biochemical attributes,and PUE in maize plants under water stress conditions.Among the hybrids tested,the hybrid 6525 performed better both under stress and non-stress conditions.These outcomes confirmed that the exogenous application of P improved drought stress tolerance by modulating growth,physio-biochemical attributes,and PUE of maize hybrids.
文摘Maize forage is poor in protein content which leads to low quality and nutritive value.Regarding the high feed costs of protein supplementations,legumes can be used in livestock nutrition for their high protein content,and thus,provide cost savings.In this study,maize(Zea mays L.)and cowpea(Vigna unguiculata L.)were intercropped in different sowing densities and fertilization with clinoptilolite and their monocropping equivalents were tested to determine the best intercropping system on forage yield and quality.Maize was cultivated alone(75,000 plants·ha^-1)and intercropped with cowpea as follows:75,000 plants·ha-1 of maize and 37,500 plants·ha^-1 of cowpea(MC1),75,000 plants·ha^-1 of maize and 50,000 plants·ha-1 of cowpea(MC2)and 75,000 plants·ha^-1 of maize and 75,000 plants·ha^-1 of cowpea(MC3),in rows alternating with maize.The highest dry matter yield was produced by MC3(23.8 t·ha^-1),and the lowest by SM(20.7 t·ha^-1)in fertilization with clinoptilolite.All intercropped systems had higher crude protein contents,MC1(101 g·kg^-1 DM),MC2(108 g·kg^-1 DM)and MC3(117 g·kg^-1 DM),than the monocrop maize(84 g·kg^-1 DM)in fertilization with clinoptilolite.Intercropping of maize with cowpea and fertilization with clinoptilolite reduced neutral detergent fiber,resulting in increased forage digestibility.Therefore,maize intercropping with cowpea and fertilization with clinoptilolite could substantially increase forage quantity and quality,and decrease requirements for protein supplements as compared with maize monocrop.
基金The authors extend their appreciation to the Researchers Supporting Project Number(RSP2023R298),King Saud University,Riyadh,Saudi Arabia.
文摘Drought is one of the critical limitations to agricultural soils and crop plants.Scarcity of water is increasing due to climate change that lead to increasing threats to global food security.Therefore,ecofriendly and cost effective strategies are highly desirable for mitigating drought stress along with sustainable and smart agricultural production.The aim of the study was to mitigate DS using seed priming and exogenous supplementation ofβ-aminobutyric acid(BABA)in linseed(Linum usitatissimum L.).Different doses(0,50,100 and 150μM)of BABA were used for seed priming agent and foliar spraying under three soil moisture levels viz.,25%(SM25),45%(SM45)and 65%(SM65).The response variables of both experiments included different agro-botanical traits and oxidative stress indicators such as melondialdehyde content,free proline accumulation,and antioxidant defense in plants.The linseed plants showed water stress at SM25 that reduced plant height,number of branches per plant,time taken to flower initiation and heading,and root and shoot dry weights.Additionally,the number of capsules and seeds per capsule showed a significant decline at SM25,which led to a drastic reduction in 100-seed weight yield in linseed plants in both experiments.However,seed priming and foliar supplementation with of BABA(50–100μM)significantly improved these morpho-agronomical attributes in linseed plants under DS.The results revealed that the BABA was fully active in linseed plants at SM25.Interestingly,the combination of SM25 with BABA significantly improved the antioxidant enzymes superoxide dismutase(SOD),catalase(CAT),ascorbate peroxidase(APX),and peroxidase(POD)activity,which significantly enhanced DS tolerance in linseed plants.These findings might be useful to oil seed breeders and farmers linseed for breeding program in linseed plants as well as sustainable agricultural production of oil seed crop plants.
文摘Drought is the major detrimental environmental factor for wheat(Triticum aestivum L.)production.The exploration of genetic patterns underlying drought tolerance is of great significance.Here we report the gene actions controlling the phenological traits using the line×tester model studying 27 crosses and 12 parents under normal irrigation and drought conditions.The results interpreted via multiple analysis(mean performance,correlations,principal component,genetic analysis,heterotic and heterobeltiotic potential)disclosed highly significant differences among germplasm.The phenological waxiness traits(glume,boom,and sheath)were strongly interlinked.Flag leaf area exhibits a positive association with peduncle and spike length under drought.The growing degree days(heat-units)greatly influence spikelets and grains per spike,however,the grain yield/plant was significantly reduced(17.44 g to 13.25 g)under drought.The principal components based on eigenvalue indicated significant PCs(first-seven)accounted for 79.9%and 73.9%of total variability under normal irrigation and drought,respectively.The investigated yield traits showed complex genetic behaviour.The genetic advance confronted a moderate to high heritability for spikelets/spike and grain yield/plant.The traits conditioned by dominant genetic effects in normal irrigation were inversely controlled by additive genetic effects under drought and vice versa.The magnitude of dominance effects for phenological and yield traits,i.e.,leaf twist,auricle hairiness,grain yield/plant,spikelets,and grains/spike suggests that selection by the pedigree method is appropriate for improving these traits under normal irrigation conditions and could serve as an indirect selection index for improving yield-oriented traits in wheat populations for drought tolerance.However,the phenotypic selection could be more than effective for traits conditioned by additive genetic effects under drought.We suggest five significant cross combinations based on heterotic and heterobeltiotic potential of wheat genotypes for improved yield and enhanced biological production of wheat in advanced generations under drought.
文摘Abiotic stresses at different growth stages in the life of plants negatively affect yield productivity.Therefore,plants,including Amaranthus hypochondriacus,develop adaptive strategies to face the stresses and expand functional diversification.In plants,the mitochondrial transcription termination factors(mTERF)are essential functions in regulation,and organelles(mitochondria and chloroplasts)control gene expression(OGE)under several stress conditions.Based on the in-silico-wide genome and transcriptome analysis,twenty-four mTERF genes were detected in the main targeted mitochondria organelles clustered into three different main groups.The chromosomal location and gene duplication analysis indicated one segmental and one tandem duplication in the genome.The promoter region cis-elements assessment showed that there wasa high correlation between the growth and development process,stress,and hormone responses of these genes.Expression profiling of mTERF genes under salt stress revealed a total number of 24 gene families with seven upregulated and 6 down-regulated genes in drought and salt stress.However,Ah-mTERF-8 and 14 indicated up-regulation under drought stress.Ah-mTERF-4,6,14,15,17,and 20 were up-regulated under salt stress.Molecular characterization and identification through the in-silico study of the specific genes and their differential expression profiling demonstrated the role of mTERF proteins throughout their reaction to growth and development,during stress in A.hypochondriacus.These results demonstrated that mTERF genes were significantly related to the abiotic stress responses.
文摘Aromatic and medicinal plant species having small seeds havefield emergence problems due to low nutrient supply.Therefore,Pimpinella anisum seeds were hydro and osmoprimed with 100 mM MgCl_(2),CaCl_(2),and ZnCl_(2),for 2,4,and 8 h each to compare their growth attributes during germination and seedling establishment stages.Nontreated seeds were used as control.Both hydro and osmo primed seeds were dried for 48 h before,they were sown in plastic trays in growth room conditions to see the impact of treatments on seedling emergence and growth.The maximum root length(12.90 cm),fresh weight(256.30 mg plant^(-1)),and mean emergence time(MET)were recorded from 8 h MgCl_(2) primed seeds.Similarly,the maximum(97.50,and 98.00%)emergence percentage was observed using 8 h MgCl_(2) primed seeds and nontreated seeds(control treatment).The evaluation of parameters like chlorophyll contents and electrical conductivity showed the 8 h MgCl_(2) priming as the optimum treatment.The evaluation of parameters like chlorophyll contents and electrical conductivity showed the 8 h MgCl_(2) priming as the optimum treatment.The result suggests MgCl_(2) priming worked synergistically and improved seed-ling growth attributes under greenhouse conditions.The chlorophyll content ranged 25.94–35.69 SPAD unit.The highest chlorophyll content was obtained from the seedlings obtained from 4 h CaCl_(2) treatment,which were statistically similar to the chlorophyll contents of the seedlings obtained after 8 h MgCl_(2) treatment and nontreated seeds(control treatment).All other treatments showed inhibition in the chlorophyll contents and growth attributes of the seedlings.In conclusion,MgCl_(2) osmopriming treatments were significantly promotive and better compared to hydro-priming and osmopriming treatments including control treatment in terms of anise seeds germination and emergence.
文摘This study aimed to determine whether NIR spectroscopy and protein band analysis can differentiate the grain samples of 15 wheat genotypes stored for different periods:Group Ⅰ(91weeks),Group Ⅱ(143weeks),Group Ⅲ(194weeks),and GroupⅣ(246weeks).Samples were harvested from previously-conducted field trials,and stored at+4 ℃.A-PAGE and SDS-PAGE methods were utilized to separate gliadin and glutenin fractions,respectively.A qualitative calibration model based on the Support Vector Machine(SVM)method was generated and validated using NIR spectra taken from samples.Results indicated storage length did not have an effect on molecular band fractions.Use of this method would not be considered an effective tool for discrimination of samples stored for different lengths of time.Spectral techniques may have potential in sorting samples based on their storage time.The SVM calibration model generated here had an acceptable true classification rate(over 80%)for separating all groups,while only GroupsⅡ andⅣ were precisely separated(100%true classification rate)in the validation step.
基金This publication was supported by Award Number(BAP,FÖA-2016-6152)from the Research Foundation of the Cukurova University,Adana,Turkey and Principal Investigator,Prof.Dr.Alhan Sariyev“https://bap.cu.edu.tr/.”
文摘Maize being sub-tropical crop is sensitive to water deficit during the early growth stages;particularly clay-rich soil,due to the compaction of the soil.It is well-documented that potential sub-surface drip irrigation(SDI)(Full irrigation;SDIFull(100%field capacity(FC)),Deficit irrigation;SDIDeficit(70%FC))improves water use efficiency,which leads to increased crop productivity;since it has a constraint that SDI excludes soil air around the root-zone during irrigation events,which alter the root function and crop performance.Additionally,in clay-rich soils,the root system of plants generally suffers the limitation of oxygen,particularly the temporal hypoxia,and occasionally from root anoxia;while SDI system accomplishes with the aerating stream of irrigation in the rhizosphere could provide oxygen root environment.The oxygen can be introduced into the irrigation stream of SDI through two ways:the venturi principle,or by using solutions of hydrogen peroxide through the air injection system.Therefore,the application of hydrogen peroxide(H_(2)O_(2);HP)can mitigate the adverse effect of soil compactness and also lead to improving the growth,yield and yield attributes of maize in clay-rich soil.Considering the burning issue,a field study was conducted in consecutive two seasons of 2017 and 2018;where hybrid maize was cultivated as a second crop,to evaluate the effect of liquid-injection of H_(2)O_(2)(HP)into the irrigation stream of SDI on the performance of maize in a clay-rich soil field of Adana,Turkey.When soil water content decreased in 50%of avail-able water,irrigation was performed.The amount of water applied to reach the soil water content to the field capacity is SDIFull(100%FC)and 70%FC of this water is SDIDeficit(70%FC).In the irrigation program,hydrogen peroxide(HP)was applied at intervals of 7 days on average according to available water with and without HP:SDIFull(100%FC)+0 ppm HP with full SDI irrigation;SDIFull(100%FC)+250 ppm HP with deficit SDI irrigation;SDIDeficit(70%FC)+0 ppm HP,SDIDeficit(70%FC)+250 ppm HP and SDIDeficit(70%FC)+500 ppm HP.Deficit irrigation(SDIDeficit(70%FC))program was started from tasseling stage and continued up to the physiological maturity stage with sub-soil drip irrigation.H_(2)O_(2) was applied 3 times during the growing season.Two years’results revealed that the liquid-injection of H_(2)O_(2) into the irrigation stream of SDI improved the growth and yield-related attributes and grain yield of maize.Based on the obtained results,during the extreme climatic condition in the year 2017,SDIFull(100%FC)+250 ppm HP was more effective than SDIFull(100%FC)+0 ppm HP on all traits for relative to full irrigation.While,during the favourable climatic condition in the 2018 season,SDIFull(100%FC)+250 ppm HP was more effective than full irrigation with SDIFull(100%FC)+0 ppm HP for the grain yield,grains,and SPAD value.Accordingly,the most effective treatment was SDIFull(100%FC)+250 ppm HP,as it gave the highest growth and yield-related attributes and grain yield of maize followed by SDIDeficit(70%FC)+250 ppm HP.Therefore,SDIFull with 250 ppm H_(2)O_(2) using as liquid-injection may be recommended to mitigate the adverse effect of soil compactness particularly water-deficit stress in clay-rich soil for the sustainability of maize production.
文摘Maize is cultivated extensively throughout the world and has the highest production among cereals.However,Northern corn leaf blight(NCLB)disease caused by Exherohilum turcicum,is the most devastating limiting factor of maize production.The disease causes immense losses to corn yield if it develops prior or during the tasseling and silking stages of crop development.It has a worldwide distribution and its development is favoured by cool to moderate temperatures with high relative humidity.The prevalence of the disease has increased in recent years and new races of the pathogen have been reported worldwide.The fungus E.turcicum is highly variable in nature.Though different management strategies have proved effective to reduce economic losses from NCLB,the development of varieties with resistance to E.turcicum is the most efficient and inexpensive way for disease management.Qualitative resistance for NCLB governed by Ht genes is a race-specific resistance which leads to a higher level of resistance.However,some Ht genes can easily become ineffective under the high pressure of virulent strains of the pathogen.Hence,it is imperative to understand and examine the consistency of the genomic locations of quantitative trait loci for resistance to NCLB in diverse maize populations.The breeding approaches for pyramiding resistant genes against E.turcicum in maize can impart NCLB resistance under high disease pressure environments.Furthermore,the genome editing approaches like CRISPR-cas9 and RNAi can also prove vital for developing NCLB resistant maize cultivars.As such this review delivers emphasis on the importance and current status of the disease,racial spectrum of the pathogen,genetic nature and breeding approaches for resistance and management strategies of the disease in a sustainable manner.
文摘Background Cotton(Gossypium hirsutum L.),adapted to tropical and subtropical regions of the world,is highly sensitive to low temperatures throughout its life cycle.The objective of this study was to evaluate the mitigating effects of different doses of animal-derived(0.25%,0.50%,and 1.00% Isabion■),seaweed-based(0.165%,0.330%,and 0.660% Proton■)biostimulants,as well as a copper(Cu)-containing fungicide application,on cotton cultivar Lazer seedlings at the four true leaves(V4)stage.The plants were exposed to a low temperature of 5℃for 48 h,and the changes in morphological(seedling fresh and dry weight,plant height,and stem diameter)and physiological parameters(leaf temperature,chlorophyll content,relative water content,electrolyte leakage,and relative injury)were examined.Results The results revealed that chilling stress reduced plant growth,while biostimulants helped protect the plants and overcome the adverse effects of chilling.Under chilling stress,there was a considerable reduction in seedling fresh weight(SFW),seedling dry weight(SDW),plant height(PH),stem diameter(SD),leaf temperature(LT),and relative water content(RWC).Cotton seedlings treated with the animal-derived biostimulants showed significantly enhanced SFW,SDW,PH,SD,LT,chlorophyll content(Chl),electrolyte leakage(EL),and relative injury(RI),although there were no positive changes in RWC.No significant differences in the morphological traits were observed among the doses of seaweed biostimulants.For SDW,PH,EL,and RI,the best results were obtained with the application of a fungicide containing copper.Conclusion These results show the efficiency of the biostimulant and fungicide treatments in mitigating low-temperature stress in cotton seedlings.Applying a copper-containing fungicide to cotton seedlings helped to counteract the negative effects of low-temperature stress and to protect the plants from damage by maintaining electrolyte balance.Among the biostimulant applications,all levels of animal-derived biostimulant applications,as well as the 0.660% level of the seaweed-derived biostimulant,led to increased tolerance of cotton plants to chilling stress.
文摘The aim of this study was to determine the GY (grain yield) and some quality characters of durum wheat landraces under Thrace Region ecological conditions. This study was carried out in randomized complete blocks design with three replications in the locations of Tekirdag, Edirne, Klrklareli and Lüleburgaz during the growing years of 2009 and 2010. In the research, 20 durum wheat landraces obtained from different regions of Turkey and 5 obsolete durum wheat cultivars were used as the experimental material. It was determined that the GY, TW (test weight) and PC (protein content) in the first year were higher than the second year in this study. The highest values for GY, TGW (thousand grain weight), and TW and GVR (grain vitreousness rate) were determined in Tekirdag location, while the highest PC was determined in Edirne location. The results of the research showed that GY varied between 321.17-470.33 kg da^-1 in Tekirdag, 301.33-404.00 kg da^-1 in Edirne;197.50-334.67 kg da^-1 in K?rklareli and 280.00-501.33 kg da^-1 in Lüleburgaz. TGWs were determined between 38.17-44.50 g of Tekirdag, 36.00-43.00 g of Edirne, 38.43-43.67 g of Karklareli and 35.33-45.67 g of Lüleburgaz. TW of Tekirdag, Edirne, Karklareli and Lüleburgaz locations changed between 74.67-79.33 kg hl^-1, 69.33-76.83 kg hl^-1, 70.00-75.17 kg hl^-1 and 71.00-77.50 kg hl^-1, respectively. The GVR was determined among 85.00-96.83% in Tekirdag, 68.33-93.33% in Edirne, 67.83-93.83% in Klrklareli, and 85.17-98.17% in Lüleburgaz. The PC of grains was measured among 13.32-14.95% in Tekirdag, 14.90-16.25% in Edirne, 14.27-16.17% in K?rklareli, and 13.40-16.53% in Lüleburgaz. It was determined that Dicle and Dicle-13 landraces for GY and TW, Adlyaman landrace for TGW,Canakkale and Akbugday landraces for the GVR, and Iskenderun, Akbu?day, Erzincan landraces for PC have the highest values.
文摘Cadmium (Cd) contamination of agricultural soils may pose severe risks and hazards for humans through food chain, as crop plants accumulate Cd in their edible tissues. Cd translocation from soil to plant is largely dependent on soil and plant type. Cd accumulation occurs much more in crop plants grown in soils with severe zinc (Zn) deficiency and durum wheat tends to accumulate more Cd in grain than the other cereals. The objective of this study was to evaluate the alleviating effect of Zn fertilization on Cd accumulation in durum wheat grain. A pot experiment including foliar Zn application of 0.3% w/v ZnSO4 and soil Cd applications of 0, 0.2 and 1.0 mg/kg was carried out in a completely randomized design using a Zn-deficient soil. Grain Cd concentration of plants receiving 0 mg/kg Cd was 31 μg/kg, whereas with 0.2 mg/kg and 1.0 mg/kg Cd applications it increased to the levels of 215 μg/kg and 1,489 μg/kg, respectively. Along with 0.3% ZnSO4 leaf applications, grain Cd concentrations decreased to 171 μg/kg and 754 μg/kg, by a reduction of 20.5% and 49.3%, respectively. In conclusion, it was determined that leaf applied Zn fertilizer might alleviate Cd accumulation in durum wheat grain in Zn deficiency conditions.
