Soil salinization is a severely detrimental environmental problem that affects the seed germination,growth and yield of wheat.To excavate salt-tolerant genes and breed salt-tolerant wheat varieties are of great signif...Soil salinization is a severely detrimental environmental problem that affects the seed germination,growth and yield of wheat.To excavate salt-tolerant genes and breed salt-tolerant wheat varieties are of great significance for ensuring global food security.In this study,we have successfully developed a novel salt-tolerant wheat cultivar,KD808,which is shown to have remarkable salt tolerance through multiple phenotypic analyses.RNA-seq coupled with RT-qPCR analyses reveal that the expression of TaSGR-5B is up-regulated by salt stress treatment in the salt-sensitive wheat varieties such as KN199 and Fielder,whereas the salt-induction of TaSGR-5B is abolished in our salt-tolerant variety KD808.More importantly,we found that the loss-of-function Tasgr-aabbdd mutants exhibit significantly salt-tolerant phenotypes without penalties in major agronomic traits.This study not only provides valuable insights into the molecular mechanisms of salt tolerance in wheat but also offers substantial potential for improving wheat cultivation in saline-alkali soils,thereby contributing to sustainable agricultural production.展开更多
Epigenetics-mediated breeding(epibreeding)involves engineering crop traits and stress responses through the targeted manipulation of key epigenetic features to enhance agricultural productivity.While conventional bree...Epigenetics-mediated breeding(epibreeding)involves engineering crop traits and stress responses through the targeted manipulation of key epigenetic features to enhance agricultural productivity.While conventional breeding methods raise concerns about reduced genetic diversity,epibreeding propels crop improvement through epigenetic variations that regulate gene expression,ultimately impacting crop yield.Epigenetic regulation in crops encompasses various modes,including histone modification,DNA modification,RNA modification,non-coding RNA,and chromatin remodeling.This review summarizes the epigenetic mechanisms underlying major agronomic traits in maize and identifies candidate epigenetic landmarks in the maize breeding process.We propose a valuable strategy for improving maize yield through epibreeding,combining CRISPR/Cas-based epigenome editing technology and Synthetic Epigenetics(SynEpi).Finally,we discuss the challenges and opportunities associated with maize trait improvement through epibreeding.展开更多
Global agriculture must urgently adopt a new approach to ensure adequate food production for the increasing population in the current context of adverse conditions,while prioritizing environmental sustainability.This ...Global agriculture must urgently adopt a new approach to ensure adequate food production for the increasing population in the current context of adverse conditions,while prioritizing environmental sustainability.This change requires innovative and environmentally conscious methods,such as symbiotic-microorganisms-based products.Among these organisms,the genus Trichoderma stands out,as these fungal endophytes reside within many plant species including those in the Brassicaceae family and interact with them positively.Brassicaceae encompass numerous taxa of special agricultural and food interest,such as those known as oilseed brassicas(OSBs).Among these group are crops for obtaining canola and mustard seeds,commonly used for oil and spices production,respectively.OSBs are of greater interest for food because they are rich source of vitamins and minerals,and have also a great antimicrobial,antioxidant and antitumor potential application.Therefore,the improvement of these plant species(or of their cultivation methods)may ultimately lead to an improvement in human food and,accordingly,human health.This progress could go hand in hand with the Trichoderma fungal genus,either based on transgenesis with some of their genes,or using these fungi to formulate and produce bioinoculants.In relation to transgenesis,the most widely studied are those based on Trichoderma genes encoding endochitinases and Kelch-like family proteins,in both cases to achieve an antifungal effect against pathogenic fungi.With regard to Trichoderma-based products,these can be aimed at promoting plant growth,protecting crops against pathogens by acting as biological control agents(BCAs),or even reducing contaminants in the soil,such as heavy metals.The purpose of the present literature review is to analyse and discuss most of the existing studies to date on the interaction between OSB crops and Trichoderma fungi.展开更多
Premature senescence in Bacillus thuringiensis(Bt)cotton has emerged as a significant challenge to the formation and realization of fiber yield and quality since its commercialization in 1997.Initially,premature senes...Premature senescence in Bacillus thuringiensis(Bt)cotton has emerged as a significant challenge to the formation and realization of fiber yield and quality since its commercialization in 1997.Initially,premature senescence was thought to be an inherent trait associated with the Bt gene.However,subsequent research and practice have demonstrated that it is not directly linked to the Bt gene but rather results from a physiological imbalance between the sink and source,as well as between the root and shoot in Bt cotton.This short review provides an overview of the causes,mechanisms,and control measures for premature senescence in Bt cotton.It offers valuable insights for future research and the sustainable application of transgenic crops.展开更多
Nitrogen(N)fertilizer application boosts yield and quality in crops such as wheat(Triticum aestivum L.)but raises environmental and economic concerns(Liu et al.,2019).Therefore,identifying the genes associated with N ...Nitrogen(N)fertilizer application boosts yield and quality in crops such as wheat(Triticum aestivum L.)but raises environmental and economic concerns(Liu et al.,2019).Therefore,identifying the genes associated with N use efficiency is a major objective in wheat breeding(Liu et al.,2022b).展开更多
In rice systems under continuous flooding(CF)irrigation,rice grains with high arsenic(As)concentration can be produced.In Argentina,these areas are located in the south of Corrientes Province and the north of Entre R&...In rice systems under continuous flooding(CF)irrigation,rice grains with high arsenic(As)concentration can be produced.In Argentina,these areas are located in the south of Corrientes Province and the north of Entre Ríos Province.The combination of agronomic management,genetic variability of rice varieties,and the characteristics of soil and irrigation water determines the concentration and proportion of grain As species.In this study,we evaluated two factors affecting grain As accumulation:irrigation management,CF and interrupted flooding(IF),and rice variety,rice with medium,long,and double long/wide grains.The experiments were conducted during four cropping cycles(2015–2016,2016–2017,2017–2018,and 2020–2021)on a farm in the north of Entre Ríos Province.Total As concentration in husked grains showed a wide range and was mostly above 0.30 mg kg^(-1),even after the polishing process.Fortunately,organic As was the predominant species.In polished rice,inorganic As concentration ranged between 0.02 and 0.28 mg kg^(-1).Significant differences were observed in grain As concentration between four rice varieties,with the highest inorganic and total As concentrations in grains of the medium-grain variety.The interaction of rice variety by irrigation management did not affect grain yield,but significantly reduced total As concentration in grains.Soil drainage under IF explained 43%–46%of the reduction of total As concentration in grains.The management practices of irrigation and rice variety had slight effects on inorganic As concentration in grains.In conclusion,a single soil drying period combined with proper rice varieties can be an effective management practice for mitigating As accumulation in rice grains.展开更多
To screen high-quality early-maturing rapeseed germplasm resources,this study took six early-maturing Brassica napus varieties(ZY1,ZY2,ZY3,ZY4,ZY5,and ZY6)as research objects to compare and analyze their agronomic tra...To screen high-quality early-maturing rapeseed germplasm resources,this study took six early-maturing Brassica napus varieties(ZY1,ZY2,ZY3,ZY4,ZY5,and ZY6)as research objects to compare and analyze their agronomic traits,resistance,and yield traits.The results showed that the six early-maturing rapeseed varieties exhibited strong pre-winter growth,with the number of green leaf on the main stem ranging from 9.0 to 11.6,the total leaf number of main stem from 11.8 to 14.2,the maximum leaf length on main stem from 41.28 cm to 47.54 cm,the maximum leaf width from 12.02 cm to 13.38 cm,and the rhizome thickness from 20.64 mm to 25.82 mm.The order of green leaf,total leaf,maximum leaf length,and rhizome thickness from high to low across varieties was ZY1>ZY2>ZY3>ZY4>ZY5>ZY6,while the maximum leaf width followed ZY2>ZY1>ZY3>ZY4>ZY5>ZY6.Compared with other varieties,ZY1 and ZY2 had earlier bolting,initial flowering,final flowering,and harvesting times.The growth periods of the varieties were 183-189 d,with ZY1 being the shortest(183 d)and ZY2 following(185 d).Resistance investigations showed that ZY1 had the lowest freeze damage rate(13%)and freeze damage index(0.043),followed by ZY2(15%and 0.060).No Sclerotinia stem rot was observed at the seedling stage,while all varieties developed the disease at maturity;ZY1 had the lowest incidence(15%)and disease index(0.050),followed by ZY2(18%and 0.070).In terms of yield traits,the yield per plant of the six varieties ranged from 11.46 g to 14.53 g,with ZY1 being the highest(14.53 g)and ZY2 following(13.42 g).In conclusion,ZY1 and ZY2 exhibited vigorous pre-winter growth,early bolting and flowering,short growth periods,strong freeze and disease resistance,and high yield per plant,making them ideal materials for early-maturing rapeseed breeding.展开更多
Varietal deficiencies of upland rice lead to a low paddy grain yield. The aim of this study was to mutagenesis upland rice varieties to improve their agronomic performance. Seeds of varieties FKR45N and FKR47N were th...Varietal deficiencies of upland rice lead to a low paddy grain yield. The aim of this study was to mutagenesis upland rice varieties to improve their agronomic performance. Seeds of varieties FKR45N and FKR47N were therefore irradiated with doses 300, 350 and 400 Gy. The irradiated seeds were sown and the panicles of the M1 plants were individually harvested, and then were advanced to M4 using the “one panicle - one progeny” method. The agronomic performance of M4 lines was compared to that of their parent. The gamma ray mutagenesis has induced significant variability in five yield components, i.e., plant height, main panicle length, total numbers of tillers and productive tillers and paddy grain yield between mutant lines. The highest variabilities were shown for the total number of tillers and the number of productive tillers as well as FKR45N (CV% = 40 % and 36%) and FKR47N (CV% = 31% and 30%) mutant lines. Principal component analysis led to rank the mutant lines from each variety in three clusters. The Pearson correlation showed that the paddy grain yield was significantly and positively correlated with the number of productive tillers (r = 0.61) and plant height (r = 0.66) for FKR47N mutant lines, and these correlation coefficients were r = 0.52 and r = 0.51 for FKR45N mutant lines, respectively. Gamma-ray irradiation also induced an earliness of 50% flowering of 62 days after sowing (DAS) in two FKR45N mutant lines and 67 DAS in one of KR47N mutant lines. The paddy grain yield was improved by 120% and 20% in two FKR45N and FKR47N mutant lines, respectively. A dwarf FKR45N mutant line with an early flowering of 67 DAS and a paddy grain yield (2.34 t ha−1) was generated. These results suggested that any positive increase in the six quantitative traits will increase the paddy grain yield.展开更多
Tomato is one of the most essential vegetable crops worldwide,with the highest annual production rate of all agricultural staples(Kimura and Sinha,2008).Long-term domestication of tomatoes has led to the selection of ...Tomato is one of the most essential vegetable crops worldwide,with the highest annual production rate of all agricultural staples(Kimura and Sinha,2008).Long-term domestication of tomatoes has led to the selection of favorable agronomic traits that often come at the expense of stress resistance.To identify potential genetic targets for improved stress tolerance,whole-genome sequencing(WGS)has been applied to wild and cultivated accessions.展开更多
Powdery mildew is a serious disease caused by Blumeria graminis f.sp.tritici(Bgt)that critically threatens the yield and quality of wheat(Triticum aestivum L.).Using effective powdery mildew resistance genes is the op...Powdery mildew is a serious disease caused by Blumeria graminis f.sp.tritici(Bgt)that critically threatens the yield and quality of wheat(Triticum aestivum L.).Using effective powdery mildew resistance genes is the optimal method for controlling this disease.Against the background of high genetic homogeneity among the modern commercial cultivars that are mainly derived from conventional interbreeding,the resistance genes from wheat relatives have especially prominent advantages.Octoploid triticale,produced from common wheat and rye(Secale cereale L.)through distant hybridization,is a new synthetic species and valuable gene donor for wheat improvement.In this study,we developed the wheat-rye line YT5 through the hybridization of octaploid triticale and two wheat lines.YT5 was confirmed to be a 6RL ditelosomic addition and 1R(1B)substitution line using genomic in situ hybridization(GISH),multicolor fluorescence in situ hybridization(mc-FISH),multicolor GISH(mc-GISH)and molecular marker analysis.Genetic analysis showed that the powdery mildew resistance in YT5 was derived from the rye chromosome arm 6RL.After inoculation with different Bgt isolates at the seedling stage,YT5 had compound reaction patterns with both obvious spores and hypersensitivity,and it gradually became highly resistant until the adult-plant stage,thus showing a resistance response significantly different from the reported Pm genes from rye chromosome 6RL.YT5 also showed promising agronomic performance,so it is expected to be an elite resistance donor for wheat improvement.To promote the transfer of the chromosome arm 6RL of YT5 in marker-assisted selection(MAS)breeding,we selected and verified two 6RL-specific kompetitive allelespecific PCR(KASP)markers that can be applied to efficiently detect this chromosome arm in different wheat backgrounds.展开更多
To address the rising global agricultural labor costs,there is an urgent need for robots to accomplish some complex agronomic tasks and break through the limitations of traditional machinery.Thus,robots are considered...To address the rising global agricultural labor costs,there is an urgent need for robots to accomplish some complex agronomic tasks and break through the limitations of traditional machinery.Thus,robots are considered an essential support for the future smart agriculture.Given that agronomic targets,such as plants and animals,are living organisms with diverse growth patterns and physical characteristics,effective hand–eye coordination is crucial for robots to interact with these targets proficiently.This paper reviews the developments in hand–eye coordination technology for agricultural robots,focusing on its configuration,principles,and applications in target detection and manipulation,based on a review of research literature and technical specifications of commercial products.Furthermore,the ongoing challenges in hand–eye coordination for robotic operations in complex agronomic tasks are analyzed and summarized,and the potential trends for overcoming these challenges are predicted.Finally,this review aims to deepen understanding of agricultural robots’capabilities and inspire ongoing innovation to further their agricultural applications.展开更多
Small signaling peptides,generally comprising fewer than 100 amino acids,act as crucial signaling molecules in cell-to-cell communications.Upon perception by their membrane-localized corresponding receptors or co-rece...Small signaling peptides,generally comprising fewer than 100 amino acids,act as crucial signaling molecules in cell-to-cell communications.Upon perception by their membrane-localized corresponding receptors or co-receptors,these peptide-receptor modules then(de)activate either long-distance or local signaling pathways,thereby orchestrating developmental and adaptive responses via(post)transcriptional,(post)translational,and epigenetic regulations.The physiological functions of small signaling peptides are implicated in a multitude of developmental processes and adaptive responses,including but not limited to,shoot and root morphogenesis,organ abscission,nodulation,Casparian strip formation,pollen development,taproot growth,and various abiotic stress responses such as aluminum,cadmium,drought,cold,and salinity.Additionally,they play a critical role in response to pathogenic invasions.These small signaling peptides also modulate significant agronomic and horticultural traits,such as fruit size,maize kernel development,fiber elongation,and rice awn formation.Here,we underscore the roles of several small signaling peptide families such as CLE,RALF,EPFL,mi PEP,CEP,IDA/IDL,and PSK in regulating these biological processes.These novel insights will deepen our current understanding of small signaling peptides,and offer innovative strategies for genetic breeding stress-tolerant crops and horticultural plants,contributing to establish sustainable agricultural systems.展开更多
Heterotrimeric G protein serves as a central hub in plant signal transduction,playing a pivotal role in integrating endogenous developmental signals and external environmental cues.While significant advances have been...Heterotrimeric G protein serves as a central hub in plant signal transduction,playing a pivotal role in integrating endogenous developmental signals and external environmental cues.While significant advances have been made in understanding G protein signaling mechanisms in model plants such as Arabidopsis and major crops like rice and maize,the precise regulatory roles in growth,development,and adaptation in horticultural crops are still poorly understood.In this review,we systematically summarize recent advances in uncovering both conserved and species-specific regulatory mechanisms of G protein signaling across diverse plant species.We also highlight key discoveries on the crosstalk between G protein-mediated pathways and other signaling cascades,such as hormone signaling,transcriptional regulation,and stress response networks.Finally,we discuss the potential applications of G protein signaling research in future crop improvement,offering new perspectives for advancing sustainable horticultural production.展开更多
High molecular weight glutenin subunits(HMW-GS),major components of seed storage proteins in wheat,have large effects on processing quality.GLU-1 genes encode HMW-GS and their expression is mainly controlled at the tr...High molecular weight glutenin subunits(HMW-GS),major components of seed storage proteins in wheat,have large effects on processing quality.GLU-1 genes encode HMW-GS and their expression is mainly controlled at the transcriptional level by interactions between cis-regulatory elements and transcription factors.We previously identified an Aux/IAA transcription factor TaIAA10-6D that bound to a conserved cis-regulatory module CCRM1-1,the most essential conserved cis-regulatory module in GLU-1.Here,we confirmed the binding of TaIAA10-6D to CCRM1-1 using yeast one hybrid and dualluciferase reporter assays.The enhanced expression of TaIAA10-6D suppressed glutenin accumulation and increased gliadin content.Dynamic transcriptome analyses revealed that TaIAA10-6D overexpression down-regulated glutenin and gliadin genes during an early stage of grain filling,but up-regulated gliadin genes during a late stage probably by endoplasmic reticulum stress,accounting for its effect on the tradeoff between glutenin and gliadin.Rheological property and processing quality assays showed that TaIAA10-6D overproduction reduced stabilization time and bread quality,but enhanced cookie quality.Overexpression of TaIAA10-6D also reduced plant height,leaf size,kernel number and grain yield.We identified two major haplotypes of TaIAA10-6D,Hap I and Hap II,and developed a breeding-friendly diagnostic marker.Hap I conferred higher expression of TaIAA10-6D and concomitantly reduced plant height and kernel number,but had little effect on grain yield,contributing to lodging resistance without yield penalty.Hap I was subjected to positive selection in breeding.The findings provide a useful gene for wheat improvement and broaden insights into the regulatory machinery underpinning auxin-mediated quality formation,plant morphogenesis and yield gain.展开更多
THE development of agriculture faces significant challenges due to population growth,climate change,land depletion,and environmental pollution,threatening global food security[1].This necessitates the development of s...THE development of agriculture faces significant challenges due to population growth,climate change,land depletion,and environmental pollution,threatening global food security[1].This necessitates the development of sustainable agriculture,where a fundamental step is crop breeding to improve agronomic or economic traits,e.g.,increasing yields of crops while decreasing resource usage and minimizing pollution to the environment[2].展开更多
Sweet potato is one of the most important crops in Côte d’Ivoire. However, some constraints related to climate change limit its production. This study evaluated the agronomic and technological performances of ei...Sweet potato is one of the most important crops in Côte d’Ivoire. However, some constraints related to climate change limit its production. This study evaluated the agronomic and technological performances of eight varieties of orange-fleshed of sweet potato (Ipomoea batatas (L.) to identify the most promising ones. The results show three groups of varieties with different agronomic performances. Group 1 composed of Irene and Vita is characterized by low production of small and large tuberous roots, low number of productive plants and low yield. Group 2 consisting mainly of Kabode is characterized by high production and weight of large tuberous roots as well as high yield. Group 3, composed of Tacha-2 Ininda, Ejumula Gloria, TIB-440060, CIP-199062-1, Bela bela is characterized by high production of small and large tuberous roots, high number of productive plants and average yield. The TIB-440060 variety has a recovery rate of 100%. The Irene, Kabode, Vita, Kabode varieties were resistant to viral and fungal diseases. In terms of technological quality, the TIB-440060 and CIP-199062-1 varieties have the best organoleptic qualities. Given the agronomic performances of the Kabode, TIB-440060 and CIP-199062-1 varieties, could be selected as the elites varieties and distributed to producers.展开更多
Tiller number is a crucial agronomic trait for achieving high yield in rice.NAC proteins play critical roles in regulating plant growth and development.However,the role of NAC transcription factors in regulating tille...Tiller number is a crucial agronomic trait for achieving high yield in rice.NAC proteins play critical roles in regulating plant growth and development.However,the role of NAC transcription factors in regulating tiller number remains poorly understood.In this study,we isolated a rice NAC gene,OsNAC022,which is conserved in cereal crops and functions as a transcriptional activator.To investigate the role of this gene in rice,we used CRISPR/Cas9 technology to generate a homozygous mutant named CR-osnac022,which exhibited increased tiller number.展开更多
Heading date is one of the most important agronomic traits that directly affect rice yield and determines the regional adaptability in specific growing environments.As a short-day plant,rice can grow under long-day(LD...Heading date is one of the most important agronomic traits that directly affect rice yield and determines the regional adaptability in specific growing environments.As a short-day plant,rice can grow under long-day(LD)conditions due to the synergistic regulation of many photosensitive genes.Using a set of chromosome segment substitution lines(CSSLs)with the indica cultivar Huanghuazhan(HHZ)as the recipient parent and Basmati Surkh 89-15(BAS)as the donor parent,we identified a QTL locus.展开更多
[Objective] The aim of this study was to provide metabolic evidence for the analysis of the ecological and safety assessment of Pi-d2-transgenic rice.[Method] The main agronomic characters of Pi-d2-transgenic rice wer...[Objective] The aim of this study was to provide metabolic evidence for the analysis of the ecological and safety assessment of Pi-d2-transgenic rice.[Method] The main agronomic characters of Pi-d2-transgenic rice were observed in field experiment and the grain chemical characters and amino acid content were measured.[Results] Introduction of foreign gene Pi-d2 resulted in stably hereditable variation in agronomic characteristics in the descents.Most of the transgenic lines grew normally and orderly.Compared with the control(wild type plants),about half of transgenic plants showed an increased or reduced plant height.There was no observable difference between transgenic plants and controls in tiller number,length of panicle,panicles per plant,seed-setting rate and 1 000-grain weight.Total amino acid content in transgenic rice was reduced,while the starch content,GC and GT were not altered in comparison with the control.[Conclusion] Introduction of foreign gene Pi-d2 has remarkable influence on plant height,while little on grain chemical characters.展开更多
基金supported by the National Key Research and Development Program of China(2023YFF1000600,2023YFD1200403,2023YFF1000402)the Innovation Program of Chinese Academy of Agricultural Sciences.
文摘Soil salinization is a severely detrimental environmental problem that affects the seed germination,growth and yield of wheat.To excavate salt-tolerant genes and breed salt-tolerant wheat varieties are of great significance for ensuring global food security.In this study,we have successfully developed a novel salt-tolerant wheat cultivar,KD808,which is shown to have remarkable salt tolerance through multiple phenotypic analyses.RNA-seq coupled with RT-qPCR analyses reveal that the expression of TaSGR-5B is up-regulated by salt stress treatment in the salt-sensitive wheat varieties such as KN199 and Fielder,whereas the salt-induction of TaSGR-5B is abolished in our salt-tolerant variety KD808.More importantly,we found that the loss-of-function Tasgr-aabbdd mutants exhibit significantly salt-tolerant phenotypes without penalties in major agronomic traits.This study not only provides valuable insights into the molecular mechanisms of salt tolerance in wheat but also offers substantial potential for improving wheat cultivation in saline-alkali soils,thereby contributing to sustainable agricultural production.
基金supported by funding from the National Key R&D Program of China(2023ZD0407304)the Sci-Tech Innovation 2030 Agenda(2022ZD0115703)Fundamental Research Funds for Central Non-Profit of Chinese Academy of Agricultural Sciences(Y2023PT20).
文摘Epigenetics-mediated breeding(epibreeding)involves engineering crop traits and stress responses through the targeted manipulation of key epigenetic features to enhance agricultural productivity.While conventional breeding methods raise concerns about reduced genetic diversity,epibreeding propels crop improvement through epigenetic variations that regulate gene expression,ultimately impacting crop yield.Epigenetic regulation in crops encompasses various modes,including histone modification,DNA modification,RNA modification,non-coding RNA,and chromatin remodeling.This review summarizes the epigenetic mechanisms underlying major agronomic traits in maize and identifies candidate epigenetic landmarks in the maize breeding process.We propose a valuable strategy for improving maize yield through epibreeding,combining CRISPR/Cas-based epigenome editing technology and Synthetic Epigenetics(SynEpi).Finally,we discuss the challenges and opportunities associated with maize trait improvement through epibreeding.
基金This publication is part of the R&D project“PID2022-142403OA-I00(BIOCROPPING)”,funded by MCIN and“FEDER A way of doing Europe”.
文摘Global agriculture must urgently adopt a new approach to ensure adequate food production for the increasing population in the current context of adverse conditions,while prioritizing environmental sustainability.This change requires innovative and environmentally conscious methods,such as symbiotic-microorganisms-based products.Among these organisms,the genus Trichoderma stands out,as these fungal endophytes reside within many plant species including those in the Brassicaceae family and interact with them positively.Brassicaceae encompass numerous taxa of special agricultural and food interest,such as those known as oilseed brassicas(OSBs).Among these group are crops for obtaining canola and mustard seeds,commonly used for oil and spices production,respectively.OSBs are of greater interest for food because they are rich source of vitamins and minerals,and have also a great antimicrobial,antioxidant and antitumor potential application.Therefore,the improvement of these plant species(or of their cultivation methods)may ultimately lead to an improvement in human food and,accordingly,human health.This progress could go hand in hand with the Trichoderma fungal genus,either based on transgenesis with some of their genes,or using these fungi to formulate and produce bioinoculants.In relation to transgenesis,the most widely studied are those based on Trichoderma genes encoding endochitinases and Kelch-like family proteins,in both cases to achieve an antifungal effect against pathogenic fungi.With regard to Trichoderma-based products,these can be aimed at promoting plant growth,protecting crops against pathogens by acting as biological control agents(BCAs),or even reducing contaminants in the soil,such as heavy metals.The purpose of the present literature review is to analyse and discuss most of the existing studies to date on the interaction between OSB crops and Trichoderma fungi.
基金supported by National Key Research and Development Program of China(2024YFD2300221)China Agricultural Research System(CARS-15–15)+1 种基金Agricultural Scientific and Technological Innovation Project of Shandong Academy of Agricultural Sciences(CXGC2024D03)Dong Hezhong Studio for Popularization of Science and Technology in Salt Tolerant Industrial Crops(202228297).
文摘Premature senescence in Bacillus thuringiensis(Bt)cotton has emerged as a significant challenge to the formation and realization of fiber yield and quality since its commercialization in 1997.Initially,premature senescence was thought to be an inherent trait associated with the Bt gene.However,subsequent research and practice have demonstrated that it is not directly linked to the Bt gene but rather results from a physiological imbalance between the sink and source,as well as between the root and shoot in Bt cotton.This short review provides an overview of the causes,mechanisms,and control measures for premature senescence in Bt cotton.It offers valuable insights for future research and the sustainable application of transgenic crops.
基金supported by Biological Breeding-National Science and Technology Major Project(2023zD0402301)Innovation Program of Chinese Academy of Agricultural Sciences,Post-doctoral Fellowship Program of CPSF(GZB20240820).
文摘Nitrogen(N)fertilizer application boosts yield and quality in crops such as wheat(Triticum aestivum L.)but raises environmental and economic concerns(Liu et al.,2019).Therefore,identifying the genes associated with N use efficiency is a major objective in wheat breeding(Liu et al.,2022b).
基金the National Agency for the Promotion of Research,Technological Development and Innovation(Argentina)the National University of Entre Ríos(Argentina)+1 种基金the PROARROZ Foundation(Argentina)the company EBRO(Argentina)for the financial support of this research。
文摘In rice systems under continuous flooding(CF)irrigation,rice grains with high arsenic(As)concentration can be produced.In Argentina,these areas are located in the south of Corrientes Province and the north of Entre Ríos Province.The combination of agronomic management,genetic variability of rice varieties,and the characteristics of soil and irrigation water determines the concentration and proportion of grain As species.In this study,we evaluated two factors affecting grain As accumulation:irrigation management,CF and interrupted flooding(IF),and rice variety,rice with medium,long,and double long/wide grains.The experiments were conducted during four cropping cycles(2015–2016,2016–2017,2017–2018,and 2020–2021)on a farm in the north of Entre Ríos Province.Total As concentration in husked grains showed a wide range and was mostly above 0.30 mg kg^(-1),even after the polishing process.Fortunately,organic As was the predominant species.In polished rice,inorganic As concentration ranged between 0.02 and 0.28 mg kg^(-1).Significant differences were observed in grain As concentration between four rice varieties,with the highest inorganic and total As concentrations in grains of the medium-grain variety.The interaction of rice variety by irrigation management did not affect grain yield,but significantly reduced total As concentration in grains.Soil drainage under IF explained 43%–46%of the reduction of total As concentration in grains.The management practices of irrigation and rice variety had slight effects on inorganic As concentration in grains.In conclusion,a single soil drying period combined with proper rice varieties can be an effective management practice for mitigating As accumulation in rice grains.
文摘To screen high-quality early-maturing rapeseed germplasm resources,this study took six early-maturing Brassica napus varieties(ZY1,ZY2,ZY3,ZY4,ZY5,and ZY6)as research objects to compare and analyze their agronomic traits,resistance,and yield traits.The results showed that the six early-maturing rapeseed varieties exhibited strong pre-winter growth,with the number of green leaf on the main stem ranging from 9.0 to 11.6,the total leaf number of main stem from 11.8 to 14.2,the maximum leaf length on main stem from 41.28 cm to 47.54 cm,the maximum leaf width from 12.02 cm to 13.38 cm,and the rhizome thickness from 20.64 mm to 25.82 mm.The order of green leaf,total leaf,maximum leaf length,and rhizome thickness from high to low across varieties was ZY1>ZY2>ZY3>ZY4>ZY5>ZY6,while the maximum leaf width followed ZY2>ZY1>ZY3>ZY4>ZY5>ZY6.Compared with other varieties,ZY1 and ZY2 had earlier bolting,initial flowering,final flowering,and harvesting times.The growth periods of the varieties were 183-189 d,with ZY1 being the shortest(183 d)and ZY2 following(185 d).Resistance investigations showed that ZY1 had the lowest freeze damage rate(13%)and freeze damage index(0.043),followed by ZY2(15%and 0.060).No Sclerotinia stem rot was observed at the seedling stage,while all varieties developed the disease at maturity;ZY1 had the lowest incidence(15%)and disease index(0.050),followed by ZY2(18%and 0.070).In terms of yield traits,the yield per plant of the six varieties ranged from 11.46 g to 14.53 g,with ZY1 being the highest(14.53 g)and ZY2 following(13.42 g).In conclusion,ZY1 and ZY2 exhibited vigorous pre-winter growth,early bolting and flowering,short growth periods,strong freeze and disease resistance,and high yield per plant,making them ideal materials for early-maturing rapeseed breeding.
文摘Varietal deficiencies of upland rice lead to a low paddy grain yield. The aim of this study was to mutagenesis upland rice varieties to improve their agronomic performance. Seeds of varieties FKR45N and FKR47N were therefore irradiated with doses 300, 350 and 400 Gy. The irradiated seeds were sown and the panicles of the M1 plants were individually harvested, and then were advanced to M4 using the “one panicle - one progeny” method. The agronomic performance of M4 lines was compared to that of their parent. The gamma ray mutagenesis has induced significant variability in five yield components, i.e., plant height, main panicle length, total numbers of tillers and productive tillers and paddy grain yield between mutant lines. The highest variabilities were shown for the total number of tillers and the number of productive tillers as well as FKR45N (CV% = 40 % and 36%) and FKR47N (CV% = 31% and 30%) mutant lines. Principal component analysis led to rank the mutant lines from each variety in three clusters. The Pearson correlation showed that the paddy grain yield was significantly and positively correlated with the number of productive tillers (r = 0.61) and plant height (r = 0.66) for FKR47N mutant lines, and these correlation coefficients were r = 0.52 and r = 0.51 for FKR45N mutant lines, respectively. Gamma-ray irradiation also induced an earliness of 50% flowering of 62 days after sowing (DAS) in two FKR45N mutant lines and 67 DAS in one of KR47N mutant lines. The paddy grain yield was improved by 120% and 20% in two FKR45N and FKR47N mutant lines, respectively. A dwarf FKR45N mutant line with an early flowering of 67 DAS and a paddy grain yield (2.34 t ha−1) was generated. These results suggested that any positive increase in the six quantitative traits will increase the paddy grain yield.
基金supported by grants from the Shanghai Agriculture Applied Technology Development Program(2021-02-08-00-12-F00792)Projects of International Cooperation and Exchanges NSFC(3201101910).
文摘Tomato is one of the most essential vegetable crops worldwide,with the highest annual production rate of all agricultural staples(Kimura and Sinha,2008).Long-term domestication of tomatoes has led to the selection of favorable agronomic traits that often come at the expense of stress resistance.To identify potential genetic targets for improved stress tolerance,whole-genome sequencing(WGS)has been applied to wild and cultivated accessions.
基金supported by the National Key Research and Development Program of China(2021YFD1200600)the National Natural Science Foundation of China(32272105).
文摘Powdery mildew is a serious disease caused by Blumeria graminis f.sp.tritici(Bgt)that critically threatens the yield and quality of wheat(Triticum aestivum L.).Using effective powdery mildew resistance genes is the optimal method for controlling this disease.Against the background of high genetic homogeneity among the modern commercial cultivars that are mainly derived from conventional interbreeding,the resistance genes from wheat relatives have especially prominent advantages.Octoploid triticale,produced from common wheat and rye(Secale cereale L.)through distant hybridization,is a new synthetic species and valuable gene donor for wheat improvement.In this study,we developed the wheat-rye line YT5 through the hybridization of octaploid triticale and two wheat lines.YT5 was confirmed to be a 6RL ditelosomic addition and 1R(1B)substitution line using genomic in situ hybridization(GISH),multicolor fluorescence in situ hybridization(mc-FISH),multicolor GISH(mc-GISH)and molecular marker analysis.Genetic analysis showed that the powdery mildew resistance in YT5 was derived from the rye chromosome arm 6RL.After inoculation with different Bgt isolates at the seedling stage,YT5 had compound reaction patterns with both obvious spores and hypersensitivity,and it gradually became highly resistant until the adult-plant stage,thus showing a resistance response significantly different from the reported Pm genes from rye chromosome 6RL.YT5 also showed promising agronomic performance,so it is expected to be an elite resistance donor for wheat improvement.To promote the transfer of the chromosome arm 6RL of YT5 in marker-assisted selection(MAS)breeding,we selected and verified two 6RL-specific kompetitive allelespecific PCR(KASP)markers that can be applied to efficiently detect this chromosome arm in different wheat backgrounds.
基金supported by the Beijing Natural Science Foundation(6252007)the Beijing Nova Program,China(20220484023)+1 种基金the BAAFS Innovation Capacity Building Project(KJCX20240502)the BAAFS International Science and Technology Cooperation Platform(2024-08).
文摘To address the rising global agricultural labor costs,there is an urgent need for robots to accomplish some complex agronomic tasks and break through the limitations of traditional machinery.Thus,robots are considered an essential support for the future smart agriculture.Given that agronomic targets,such as plants and animals,are living organisms with diverse growth patterns and physical characteristics,effective hand–eye coordination is crucial for robots to interact with these targets proficiently.This paper reviews the developments in hand–eye coordination technology for agricultural robots,focusing on its configuration,principles,and applications in target detection and manipulation,based on a review of research literature and technical specifications of commercial products.Furthermore,the ongoing challenges in hand–eye coordination for robotic operations in complex agronomic tasks are analyzed and summarized,and the potential trends for overcoming these challenges are predicted.Finally,this review aims to deepen understanding of agricultural robots’capabilities and inspire ongoing innovation to further their agricultural applications.
基金supported by funding from Jiangxi Agricultural University(9232308314 to Huibin Han)Science and Technology Department of Jiangxi Province(20223BCJ25037 to Huibin Han and 20202ACB215002 to Shuaiying Peng)+1 种基金the Outstanding Youth Fund Project of the Natural Science Foundation of Jiangxi Province,China(20242BAB23066 to Yong Zhou)National Natural Science Foundation of China(32060047 to Jianping Liu,32160739 to Youxin Yang,32460797 to Yong Zhou and 32460081 to Huibin Han)。
文摘Small signaling peptides,generally comprising fewer than 100 amino acids,act as crucial signaling molecules in cell-to-cell communications.Upon perception by their membrane-localized corresponding receptors or co-receptors,these peptide-receptor modules then(de)activate either long-distance or local signaling pathways,thereby orchestrating developmental and adaptive responses via(post)transcriptional,(post)translational,and epigenetic regulations.The physiological functions of small signaling peptides are implicated in a multitude of developmental processes and adaptive responses,including but not limited to,shoot and root morphogenesis,organ abscission,nodulation,Casparian strip formation,pollen development,taproot growth,and various abiotic stress responses such as aluminum,cadmium,drought,cold,and salinity.Additionally,they play a critical role in response to pathogenic invasions.These small signaling peptides also modulate significant agronomic and horticultural traits,such as fruit size,maize kernel development,fiber elongation,and rice awn formation.Here,we underscore the roles of several small signaling peptide families such as CLE,RALF,EPFL,mi PEP,CEP,IDA/IDL,and PSK in regulating these biological processes.These novel insights will deepen our current understanding of small signaling peptides,and offer innovative strategies for genetic breeding stress-tolerant crops and horticultural plants,contributing to establish sustainable agricultural systems.
基金supported by the National Natural Science Foundation of China(Grant Nos.32172650,32430092)the Starry Night Science Fund of Zhejiang University Shanghai Institute for Advanced Study(Grant No.SN-ZJU-SIAS-0011)+1 种基金the Fundamental Research Funds for the Central Universities of China(Grant No.226-2024-00119)the Innovative Development of Horticulture Discipline of Zhejiang University(Grant No.B231220.0005-25).
文摘Heterotrimeric G protein serves as a central hub in plant signal transduction,playing a pivotal role in integrating endogenous developmental signals and external environmental cues.While significant advances have been made in understanding G protein signaling mechanisms in model plants such as Arabidopsis and major crops like rice and maize,the precise regulatory roles in growth,development,and adaptation in horticultural crops are still poorly understood.In this review,we systematically summarize recent advances in uncovering both conserved and species-specific regulatory mechanisms of G protein signaling across diverse plant species.We also highlight key discoveries on the crosstalk between G protein-mediated pathways and other signaling cascades,such as hormone signaling,transcriptional regulation,and stress response networks.Finally,we discuss the potential applications of G protein signaling research in future crop improvement,offering new perspectives for advancing sustainable horticultural production.
基金supported by the STI 2030-Major Projects(2023ZD0406903)the National Natural and Science Foundation of China(32272182)+1 种基金the Postdoctoral Fellowship Program of CPSF(GZC20241955)the Science and Technology Innovation Program of Chinese Academy of Agricultural Sciences(CAAS).
文摘High molecular weight glutenin subunits(HMW-GS),major components of seed storage proteins in wheat,have large effects on processing quality.GLU-1 genes encode HMW-GS and their expression is mainly controlled at the transcriptional level by interactions between cis-regulatory elements and transcription factors.We previously identified an Aux/IAA transcription factor TaIAA10-6D that bound to a conserved cis-regulatory module CCRM1-1,the most essential conserved cis-regulatory module in GLU-1.Here,we confirmed the binding of TaIAA10-6D to CCRM1-1 using yeast one hybrid and dualluciferase reporter assays.The enhanced expression of TaIAA10-6D suppressed glutenin accumulation and increased gliadin content.Dynamic transcriptome analyses revealed that TaIAA10-6D overexpression down-regulated glutenin and gliadin genes during an early stage of grain filling,but up-regulated gliadin genes during a late stage probably by endoplasmic reticulum stress,accounting for its effect on the tradeoff between glutenin and gliadin.Rheological property and processing quality assays showed that TaIAA10-6D overproduction reduced stabilization time and bread quality,but enhanced cookie quality.Overexpression of TaIAA10-6D also reduced plant height,leaf size,kernel number and grain yield.We identified two major haplotypes of TaIAA10-6D,Hap I and Hap II,and developed a breeding-friendly diagnostic marker.Hap I conferred higher expression of TaIAA10-6D and concomitantly reduced plant height and kernel number,but had little effect on grain yield,contributing to lodging resistance without yield penalty.Hap I was subjected to positive selection in breeding.The findings provide a useful gene for wheat improvement and broaden insights into the regulatory machinery underpinning auxin-mediated quality formation,plant morphogenesis and yield gain.
基金supported by Research Fund for Young Talent Plans of Xi’an Jiaotong University(KZ6J007)the National Natural Science Foundation of China(62303372,GYKP034)
文摘THE development of agriculture faces significant challenges due to population growth,climate change,land depletion,and environmental pollution,threatening global food security[1].This necessitates the development of sustainable agriculture,where a fundamental step is crop breeding to improve agronomic or economic traits,e.g.,increasing yields of crops while decreasing resource usage and minimizing pollution to the environment[2].
文摘Sweet potato is one of the most important crops in Côte d’Ivoire. However, some constraints related to climate change limit its production. This study evaluated the agronomic and technological performances of eight varieties of orange-fleshed of sweet potato (Ipomoea batatas (L.) to identify the most promising ones. The results show three groups of varieties with different agronomic performances. Group 1 composed of Irene and Vita is characterized by low production of small and large tuberous roots, low number of productive plants and low yield. Group 2 consisting mainly of Kabode is characterized by high production and weight of large tuberous roots as well as high yield. Group 3, composed of Tacha-2 Ininda, Ejumula Gloria, TIB-440060, CIP-199062-1, Bela bela is characterized by high production of small and large tuberous roots, high number of productive plants and average yield. The TIB-440060 variety has a recovery rate of 100%. The Irene, Kabode, Vita, Kabode varieties were resistant to viral and fungal diseases. In terms of technological quality, the TIB-440060 and CIP-199062-1 varieties have the best organoleptic qualities. Given the agronomic performances of the Kabode, TIB-440060 and CIP-199062-1 varieties, could be selected as the elites varieties and distributed to producers.
基金supported by the National Natural Science Foundation of China(Grant No.32372083)the Fundamental Research Funds for Central Public Welfare Research Institutes of Chinese Rice Research Institute(Grant No.CPSIBRF-CNRRI-202401)+1 种基金the Strategic Cooperation Project between Chongqing Municipal People’s Government and Chinese Academy of Agricultural Sciences‘Introduction,Excavation and Innovative Utilization of High-quality Rice Resources’,the China Agriculture Research System(Grant No.CARS-01-14)the Agricultural Science and Technology Innovation Program,China(Grant No.CAAS‐ASTIP‐2013‐CNRRI).
文摘Tiller number is a crucial agronomic trait for achieving high yield in rice.NAC proteins play critical roles in regulating plant growth and development.However,the role of NAC transcription factors in regulating tiller number remains poorly understood.In this study,we isolated a rice NAC gene,OsNAC022,which is conserved in cereal crops and functions as a transcriptional activator.To investigate the role of this gene in rice,we used CRISPR/Cas9 technology to generate a homozygous mutant named CR-osnac022,which exhibited increased tiller number.
基金supported by the Zhejiang Provincial Natural Science Foundation of China(Grant Nos.LZ24C130004 and LQ24C130008)。
文摘Heading date is one of the most important agronomic traits that directly affect rice yield and determines the regional adaptability in specific growing environments.As a short-day plant,rice can grow under long-day(LD)conditions due to the synergistic regulation of many photosensitive genes.Using a set of chromosome segment substitution lines(CSSLs)with the indica cultivar Huanghuazhan(HHZ)as the recipient parent and Basmati Surkh 89-15(BAS)as the donor parent,we identified a QTL locus.
基金Supported by Program for New Century Excellent Talents in University of Ministry of Education of China(NCET-04-0907)Program for Young Scholars in Breeding from Sichuan Provincial Department of Finance(2009QNJJ-D18)~~
文摘[Objective] The aim of this study was to provide metabolic evidence for the analysis of the ecological and safety assessment of Pi-d2-transgenic rice.[Method] The main agronomic characters of Pi-d2-transgenic rice were observed in field experiment and the grain chemical characters and amino acid content were measured.[Results] Introduction of foreign gene Pi-d2 resulted in stably hereditable variation in agronomic characteristics in the descents.Most of the transgenic lines grew normally and orderly.Compared with the control(wild type plants),about half of transgenic plants showed an increased or reduced plant height.There was no observable difference between transgenic plants and controls in tiller number,length of panicle,panicles per plant,seed-setting rate and 1 000-grain weight.Total amino acid content in transgenic rice was reduced,while the starch content,GC and GT were not altered in comparison with the control.[Conclusion] Introduction of foreign gene Pi-d2 has remarkable influence on plant height,while little on grain chemical characters.
