The security of the seed industry is crucial for ensuring national food security.Currently,developed countries in Europe and America,along with international seed industry giants,have entered the Breeding 4.0 era.This...The security of the seed industry is crucial for ensuring national food security.Currently,developed countries in Europe and America,along with international seed industry giants,have entered the Breeding 4.0 era.This era integrates biotechnology,artificial intelligence(AI),and big data information technology.In contrast,China is still in a transition period between stages 2.0 and 3.0,which primarily relies on conventional selection and molecular breeding.In the context of increasingly complex international situations,accurately identifying core issues in China's seed industry innovation and seizing the frontier of international seed technology are strategically important.These efforts are essential for ensuring food security and revitalizing the seed industry.This paper systematically analyzes the characteristics of crop breeding data from artificial selection to intelligent design breeding.It explores the applications and development trends of AI and big data in modern crop breeding from several key perspectives.These include highthroughput phenotype acquisition and analysis,multiomics big data database and management system construction,AI-based multiomics integrated analysis,and the development of intelligent breeding software tools based on biological big data and AI technology.Based on an in-depth analysis of the current status and challenges of China's seed industry technology development,we propose strategic goals and key tasks for China's new generation of AI and big data-driven intelligent design breeding.These suggestions aim to accelerate the development of an intelligent-driven crop breeding engineering system that features large-scale gene mining,efficient gene manipulation,engineered variety design,and systematized biobreeding.This study provides a theoretical basis and practical guidance for the development of China's seed industry technology.展开更多
Computer simulation permits answering theoretical and applied questions in animal and plant breeding.Blib is a novel multi-module simulation platform,which is able to handle more complicated genetic effects and models...Computer simulation permits answering theoretical and applied questions in animal and plant breeding.Blib is a novel multi-module simulation platform,which is able to handle more complicated genetic effects and models than most existing tools.In this study,we describe one major and unified application module of Blib,i.e.,ISB(abbreviated from in silico breeding),for simulating the three categories of breeding programs for developing clonal,pure-line and hybrid cultivars in plants.Genetic models on environments and breeding-targeted traits,one or several parental populations,and a number of breeding methods are key elements to run simulation experiments in ISB,which are arranged in three external input files by given formats.Applications of ISB are illustrated by three case studies,representing the three categories of plant breeding programs.Under the condition that 5000 F1 progenies were generated and tested from 50 heterozygous parents,Case study I showed that 50 crosses,each of 100 progenies,made the best balance between genetic achievement and field cost.In Case study II,one optimum breeding method was identified by which the pure lines with high yield and medium maturity could be developed.Case study III investigated the genetic consequence in hybrid breeding from five testers.One tester was identified for the simultaneous improvement in F1 hybrids and inbred lines.In summary,ISB identified a balanced crossing scheme,an optimum pure-line selection method,and an optimized tester in three case studies which are relevant to plant breeding.We believe the prediction by simulation would be highly required in front of the next generation of breeding to be driven by informatics and intelligence.展开更多
Molecular tools have drawn the attention ofmodern plant breeders for its great precision and superiority.As the global population is increasing gradually,food production should be enhanced to feed the growing populati...Molecular tools have drawn the attention ofmodern plant breeders for its great precision and superiority.As the global population is increasing gradually,food production should be enhanced to feed the growing population.Therefore,precise and fast breeding tools are becoming obvious.Moreover,climate change has become a critical issue in crop improvement.Advanced breeding methods are vital to combat the impact of climate change,including biotic and abiotic stresses.Major molecular techniques,such as‘CRISPR-Cas’mediated‘genome editing’,‘marker-assisted selection(MAS)’,‘whole genome sequencing’,‘RNAi’,transgenic approach,‘high-throughput phenotyping(HTP)’,mutation breeding,have been proven superior over traditional breeding in terms of precision,efficiency,and speed in developing stress-resistant improved varieties.This review explores the potential and superiority ofmolecular breeding methods and highlights the gaps(time,cost,efficiency,etc.)in traditional breeding methods,where modern breeding programs,asmentioned,are effective.Furthermore,this reviewwill focus on the necessity of keymodern plant breeding techniques as a foundation for sustainable farming practices to address emerging environmental challenges,ensure food security,and improve the yield and quality of crops.展开更多
This study uses prefecture-level city statistical data from China from 2000-2022 to measure the supply and demand of livestock manure nitrogen nutrients and calculates farmland livestock carrying capacity using the ni...This study uses prefecture-level city statistical data from China from 2000-2022 to measure the supply and demand of livestock manure nitrogen nutrients and calculates farmland livestock carrying capacity using the nitrogen nutrient balance method.We investigate nitrogen supply and demand and livestock carrying capacity in northeast China by comparing emissions from 2000-2022 over the past several decades.The poultry and livestock industry in northeast China has changed significantly over the past two decades:pigs are now the most bred animal and poultry production has increased dramatically.Regional livestock nitrogen emissions are influenced primarily by the size of the local livestock industry chain.Due to regional differences,each region has unique breeding structures.We also predict the anticipated situation in 2050 using the business-as usual scenario.High-risk livestock carrying capacity areas will be concentrated in the northeast and southeast regions,with significantly increased risk indices,compared with those of 2022,particularly in Shenyang,Fushun,and Tieling.Therefore,promoting farming and breeding,improving livestock manure utilization,and returning manure to nearby farmlands are crucial for meeting agricultural green development goals.展开更多
Advancements in molecular approaches have been utilized to breed crops with a wide range of economically valuable traits to develop superior cultivars.This review provides a concise overview of modern breakthroughs in...Advancements in molecular approaches have been utilized to breed crops with a wide range of economically valuable traits to develop superior cultivars.This review provides a concise overview of modern breakthroughs in molecular plant production.Genotyping and high-throughput phenotyping methods for predictive plant breeding are briefly discussed.In this study,we explore contemporary molecular breeding techniques for producing desirable crop varieties.These techniques include cisgenesis,clustered regularly interspaced short palindromic repeat(CRISPR/Cas9)gene editing,haploid induction,and de novo domestication.We examine the speed breeding approach-a strategy for cultivating plants under controlled conditions.We further highlight the significance of modern breeding technologies in efficiently utilizing agricultural resources for crop production in urban areas.The deciphering of crop genomes has led to the development of extensive DNA markers,quantitative trait loci(QTLs),and pangenomes associated with various desirable crop traits.This shift to the genotypic selection of crops considerably expedites the plant breeding process.Based on the plant population used,the connection between genotypic and phenotypic data provides several genetic elements,including genes,markers,and alleles that can be used in genomic breeding and gene editing.The integration of speed breeding with genomic-assisted breeding and cutting-edge genome editing tools has made it feasible to rapidly manipulate and generate multiple crop cycles and accelerate the plant breeding process.Breakthroughs in molecular techniques have led to substantial improvements in modern breeding methods.展开更多
The intensification of global warming has led to the continuous outbreak of southern rust(Puccinia polysora Underw.)in major maize-producing regions worldwide.The severe outbreak in the Huang-Huai-Hai summer maize reg...The intensification of global warming has led to the continuous outbreak of southern rust(Puccinia polysora Underw.)in major maize-producing regions worldwide.The severe outbreak in the Huang-Huai-Hai summer maize region of China in 2021 caused yield losses exceeding 50%in some plots,and this disease has been included in the List of Key Crop Pests and Diseases.This paper systematically reviews the molecular resistance mechanisms of maize to southern rust,focusing on the immune mechanisms mediated by NLR family genes and the characteristics of the Bin 10.01 resistance gene cluster;it summarizes the advances in research of molecular breeding technologies such as gene marker development,map-based cloning,and gene editing;combined with the disease characteristics of the spring-sown maize region in Southwest China and the summer-sown maize region in Huang-Huai-Hai,it elaborates on regionally adapted prevention and control strategies;integrating breeding practices of Dunhuang Seed Industry Group(e.g.,Dunyu 810 and Dunyan 616),it proposes a full-chain solution of"precision gene pyramiding-heterotic group utilization-regional promotion".It is expected to provide theoretical and technical references for molecular breeding of maize resistance to southern rust.展开更多
[Objectives]To obtain a novel cultivar of Chuanminshen violaceum with robust growth,high yield,and stable genetic traits.[Methods]A systematic selection method was employed to conduct a multi-point testing and regiona...[Objectives]To obtain a novel cultivar of Chuanminshen violaceum with robust growth,high yield,and stable genetic traits.[Methods]A systematic selection method was employed to conduct a multi-point testing and regional production trial utilizing C.violaceum strain CMS1,which was sourced from a semi-wild population in Langzhong,Sichuan Province,as the experimental material.In contrast,C.violaceum CMS2,derived from a cultivated population in Langzhong,Sichuan Province,along with a mixed population of C.violaceum cultispecies from the same region,served as the control material.Through a comparative analysis of phenological periods,agronomic traits,yield,and quality,a novel cultivar,‘Chengming No.1’,was ultimately selected and developed based on its superior comprehensive evaluation.[Results]In the phenological period survey conducted as part of a two-year comparative study,the CMS1 strain exhibited a shorter growth cycle compared to others.Furthermore,the agronomic characteristics of the CMS1 strain were superior to those of both CMS2 and CK.The average yields of CMS1,CMS2,and CK in the 2019 cultivar comparison test and yield trial were 468.88,448.52,and 422.15 kg/667 m 2,respectively.This resulted in an average yield increase of 11.07%for CMS1 compared to CK and 6.25%for CMS2 compared to CK.The average yields of CMS1,CMS2,and CK in the 2020 cultivar comparison test and yield trial were 482.69,467.54,and 436.82 kg/667 m 2,respectively.CMS1 exhibited an average yield increase of 10.50%compared to CK,while CMS2 demonstrated an average yield increase of 7.03%relative to CK.Furthermore,the average yield of CMS1 per 667 m 2 achieved a statistically significant level compared to CK in both years of the study.In multiple-point comparison and yield trials conducted in 2019 and 2020,the CMS1 strain exhibited a total ash content of 15.30%,an acid-insoluble ash content of 1.30%,a moisture content of 10.80%,and water-soluble extract amounting to 11.40%.All of the indicators conformed to the criteria established by the Sichuan Standards for Chinese Medicinal Materials(2010 Edition).[Conclusions]The CMS1 strain successfully passed the field technical appraisal for the novel cultivar of C.violaceum in 2021.This cultivar is characterized by high yield,excellent quality,and stable traits.In 2022,it received validation from the Sichuan Provincial Committee for the Certification of Non-Staple Crop Varieties and was officially named‘Chengming No.1’(CRY 2022002).This cultivar demonstrates significant potential for widespread cultivation.展开更多
Numerous hypotheses predict associations between phenotype-associated breeder traits and reproductive success.In secondary cavity-nesting passerine birds,which have been investigated most,up to more than 90parental ch...Numerous hypotheses predict associations between phenotype-associated breeder traits and reproductive success.In secondary cavity-nesting passerine birds,which have been investigated most,up to more than 90parental characteristics have been linked to at least one field measure of breeding performance.However,within study populations,different parental traits,such as clutch size,first-egg date,egg size,nest architecture,plumage colour,adult morphometry,or song performance,are often weakly correlated across female and/or male breeders.Furthermore,many of these studies have been conducted outside the theoretical framework of the'Individual Optimisation Hypothesis' of clutch size(IOH).IOH predicts that:(i) females with larger clutches will have larger broods at hatching and fledging compared to those with smaller clutches;and(ii) clutch size,which is adaptively adjusted to the parents' ability to rear nestlings,should always maximize the percentage of eggs producing fledglings so that variation in clutch size becomes disconnected from variation in breeding success.In this paper,we present the first detailed review of implications of IOH for parental characters other than clutch size.Our review covered 188 non-experimental studies and 1074 statistical results that examined how parental traits influence breeding success in Western Palearctic Great Tits(Parus major),Blue Tits(Cyanistes spp.),and flycatchers(Ficedula spp.).Clutch size explained one third of the variation in brood size at hatching and fledging within study populations.However,most parental characteristics associated weakly with the number of hatchlings or fledglings,likely because they did not correlate with clutch size.Overall,parental traits were poorly correlated with the proportion of hatchlings and fledglings per egg.We discuss why intraspecific variation in phenotype-associated breeder traits is often disconnected from interindividual differences in breeding success,and highlight the importance of underexplored research problems in avian breeding biology.展开更多
The identification of haploid induction genes has promoted the advancement of several breeding technologies.Haploid induction genes in wheat,coupled with visual marker,have led to the establishment of a novel in vivo ...The identification of haploid induction genes has promoted the advancement of several breeding technologies.Haploid induction genes in wheat,coupled with visual marker,have led to the establishment of a novel in vivo doubled-haploid(DH)technology.When combined with dominant male sterile genes,this innovative DH method presents a promising avenue for high-throughput production of DH lines.Furthermore,the application of haploid induction genes has facilitated the establishment of other innovative breeding technologies,such as HI-Edit and cyto-swapping in creating cytoplasmic male sterility lines,as well as synthetic apomixis.This review summarizes the progress of DH technology in wheat and presents examples of application of haploid induction genes in accelerating breeding practices,aiming to promote the development of these innovative technologies in wheat and enhancing wheat breeding efficiency.展开更多
Unlike other major crops,little research has been performed on tomato to reduce the generation time for speed breeding.We evaluated several agronomic treatments to reduce the generation time of tomato in the‘M82'...Unlike other major crops,little research has been performed on tomato to reduce the generation time for speed breeding.We evaluated several agronomic treatments to reduce the generation time of tomato in the‘M82'(determinate)and‘Moneymaker'(indeterminate)varieties and evaluated the best combination in conjunction with embryo rescue.Five container sizes with volumes of 0.2 L(XS),0.45 L(S),0.8 L(M),1.3 L(L),and6 L(XL),were evaluated in the first experiment under the autumn cycle.We found that plants grown in XL containers exhibited better development and required less time from sowing to anthesis(DSA)and from anthesis to fruit ripening(DAR).In the second experiment,using XL containers in the autumn-winter cycle,we evaluated the effects of cold priming at the cotyledonary stage,water stress,P supplementation,and K supplementation on generation time.Compared to the control,we found that cold priming significantly reduced the number of leaves,plant height to first the inflorescence,and DSA(2.7 d),whereas K supplementation reduced the DAR(8.8 d).In contrast,water stress and P supplementation did not significantly affect any of the measured traits like DAR,DSA or fruit set.To validate these data,in a third experiment with XL containers in the spring-summer cycle,the combination of cold priming and K supplementation was tested,confirming the significant effect of this combination on the reduction of generation time(2.9 d for DSA and 3.9 d for DAR)compared to the control.Embryo rescue during the cell expansion cycle(average of 22.0 d and 23.3 d after anthesis for‘M82'and‘Moneymaker',respectively)allowed the shortening of the generation time by 8.7 d in‘M82'and 11.6 d in‘Moneymaker'compared to the in planta fruit ripening.The combination of agronomic treatments with embryo rescue can effectively increase the number of generations per year from three to four for speed breeding of tomato.展开更多
The transformation of natural habitats into human-modified landscapes has far-reaching consequences for species distribution and abundance.As species adapt to these changing environments,shifts in distribution pattern...The transformation of natural habitats into human-modified landscapes has far-reaching consequences for species distribution and abundance.As species adapt to these changing environments,shifts in distribution patterns,niche dynamics,and interspecies interactions may occur,impacting biodiversity at multiple levels and potentially leading to ecosystem imbalances.This study aims to assess the impact of variations in vegetation composition and human disturbance on the distribution of sympatric breeding birds and to determine the extent of niche overlap or differentiation among these species.We conducted field surveys and collected data on bird distribution,vegetation composition,and level of human disturbance in eastern Inner Mongolian grasslands.We focused on the six most frequently co-occurring breeding birds,representing a mix of sparrows,larks,and corvids.Generalized Additive Models revealed varying responses of species occurrence along habitat gradients.Species like the Eurasian Skylark(Alauda arvensis),Mongolian Lark(Melanocorypha mongolica),and Asian Shorttoed Lark(Calandrella cheleensis),increased in larger and more connected habitats,while others,like the Tree Sparrow(Passer montanus),Eurasian Magpie(Pica pica),and Barn Swallow(Hirundo rustica),adapted to more fragmented habitats.Niche analysis indicated habitat generalists tended to occupy larger niches than grassland specialists.Substantial niche overlap was also found among the six co-occurring bird species.Conservation efforts should consider the specific needs of specialist species and strive to maintain or restore critical grassland habitats.Additionally,promoting sustainable agricultural practices that balance the needs of birds and human activities can contribute to the coexistence of generalist and specialist bird species in modified landscapes.展开更多
Dispersal is an important life history trait with signifcant consequences for spatially structured populations,as the exchange of individuals between habitat patches is crucial for maintaining metapopulation connectiv...Dispersal is an important life history trait with signifcant consequences for spatially structured populations,as the exchange of individuals between habitat patches is crucial for maintaining metapopulation connectivity.In this study,we used a long-term data set(2005–2023)to describe dispersal patterns in a patchy population of the Western Yellow Wagtail Motacilla fava within a large(approximately 1,300 km2)study area in the boreal zone of European Russia.We quantifed dispersal distances for birds that dispersed outside their natal or breeding habitat patches and applied a multistate capture–recapture approach to estimate natal and breeding dispersal probabilities.Of 395 adult wagtails and 1,610 nestlings ringed,3%of birds ringed as adults and 3%of birds ringed as nestlings were resighted outside their natal or breeding patches.The probability of natal dispersal(0.29±0.05)was signifcantly higher than the probability of breeding dispersal(0.05±0.01).The median natal dispersal distances(2.8 km for males,3.9 km for females)were the same as the median breeding dispersal distances(2.7 km for males,3.9 km for females).We did not fnd a signifcant effect of the fedging date on either the natal dispersal distance or the natal dispersal probability.Similarly,we did not fnd a signifcant effect of the previous reproductive success on either the breeding dispersal distance or the breeding dispersal probability.Our results indicate that strong breeding site fdelity and short-distance natal dispersal are the dominant dispersal strategies in a patchy population of the western yellow wagtail.展开更多
Clustered regularly interspaced short palindromic repeat sequences(CRISPR)and their accompanying proteins(Cas),commonly presenting in bacteria and archaea,make up the CRISPR/Cas system.As one of the funda-mental sourc...Clustered regularly interspaced short palindromic repeat sequences(CRISPR)and their accompanying proteins(Cas),commonly presenting in bacteria and archaea,make up the CRISPR/Cas system.As one of the funda-mental sources of nutrition for humans,edible crops play a crucial role in ensuring global food security.CRISPR/Cas9 gene editing has been applied to improve many crop traits,such as increasing nitrogen utilization efficiency,creating male sterile germplasm,and regulating tiller and spikelet formation.This paper provides a comprehensive overview of the use of CRISPR/Cas gene editing technology in crop genomes,covering the targeted genes,the types of editing that take place,the mechanism of action.Finally,we also discussed the efficiency of gene editing and pointed the future direction on how to speed up crop molecular breeding,increase breeding effectiveness,and produce more new crop varieties with high qualities.展开更多
Rice,as a primary commodity,needs to be increased in production while facing the sustainability challenges of limited land,water resources,and climate change.The demand for rice productivity was not enough to rely onl...Rice,as a primary commodity,needs to be increased in production while facing the sustainability challenges of limited land,water resources,and climate change.The demand for rice productivity was not enough to rely only on the fertile fields’ability;it is necessary to consider the rainfed land potential.Cultivation in rainfed land involves biophysical pressure,lowproduction,and limited access to superior varieties.Participatory rice breeding aimed to identify farmers’trait preferences and develop acceptable lines.A bottom-up approach involved 203 farmers from four rainfed fields in Indonesia,i.e.,Semarang-Central Java,Kulon Progo-Yogyakarta,Tabanan-Bali,andGunungkidul-Yogyakarta.The experiment on February-June 2024 tested six lines(G2,G3,G4,G5,G9,and G10)and four varieties(Situ Bagendit,Gamagora7,Inpari IRNutri Zinc,and Inpago12 Agritan).Farmers’involvement in evaluating the suitability of genotypes involved using Multidimensional Scaling and Importance-Performance Analysis.Breeders added comprehensive analysis in the growing environment with Genotype Environment Interaction,and key attributes of leverage analysis from farmers must be considered.Genotype performance in the Multidimensional Scaling feasibility indicated that yield primary determinants were panicle type,disease resistance,leaf characteristics,and environmental resilience.Importance Performance Analysis verified that G3,G9,G2,and G4 had a preference at the farm level.Genotype Environment Interaction reveals that G3,G4,and G2 were ideal lines with high potential yields,suitability,and adaptability on rainfed land.Participatory rice breeding in rainfed land integrates farmers’assessments and breeders’observations to realize the most preferred genotypes according to the challenges for sustainable agriculture.展开更多
Climate change can affect rainfall and temperature worldwide,and the ability of birds to react to these changes can be mirrored by studying population phenology and their breeding success.Some European species have ad...Climate change can affect rainfall and temperature worldwide,and the ability of birds to react to these changes can be mirrored by studying population phenology and their breeding success.Some European species have advanced arrival and breeding dates in response to local spring advancement,but conditions experienced during winter seasons may also affect arrival dates and subsequent breeding success.We utilized data collected from 1983 to 2020 in four colonies of Common Swift(Apus apus)in Northern Italy(5486 breeding attempts)to examine the variations of laying date and breeding success in relation to non-breeding conditions(previous winter in Africa)and local conditions in breeding period(spring).Climatic conditions were monitored using the North Atlantic Oscillation(NAO)and El Nino Southern Oscillation(ENSO)indices to describe conditions experienced in winter quarters and the local temperature and rainfall conditions of the breeding area.Common Swifts laid their eggs earlier in warmer springs,and this in turn had a positive effect on breeding success.We did not find evidence for any effects of African winter conditions on laying date nor on breeding success.However,because studies made in the same area have demonstrated a relationship of winter conditions(NAO)on individual survival,our data highlight the importance of considering environmental variables across the annual life cycle to understand variation in Common Swift populations.展开更多
The level of genetic variation within a breeding population affects the effectiveness of selection strategies for genetic improvement.The relationship between genetic variation level within Pinus tabuliformis breeding...The level of genetic variation within a breeding population affects the effectiveness of selection strategies for genetic improvement.The relationship between genetic variation level within Pinus tabuliformis breeding populations and selection strategies or selection effectiveness is not fully investigated.Here,we compared the selection effectiveness of combined and individual direct selection strategies using half-and full-sib families produced from advanced-generation P.tabuliformis seed orchard as our test populations.Our results revealed that,within half-sib families,average diameter at breast height(DBH),tree height,and volume growth of superior individuals selected by the direct selection strategy were higher by 7.72%,18.56%,and 31.01%,respectively,than those selected by the combined selection strategy.Furthermore,significant differences(P<0.01)were observed between the two strategies in terms of the expected genetic gains for average tree height and volume.In contrast,within full-sib families,the differences in tree average DBH,height,and volume between the two selection strategies were relatively minor with increase of 0.17%,2.73%,and 2.21%,respectively,and no significant differences were found in the average expected genetic gains for the studied traits.Half-sib families exhibited greater phenotypic and genetic variation,resulting in improved selection efficiency with the direct selection strategy but also introduced a level of inbreeding risk.Based on genetic distance estimates using molecular markers,our comparative seed orchard design analysis showed that the Improved Adaptive Genetic Programming Algorithm(IAPGA)reduced the average inbreeding coefficient by 14.36% and 14.73% compared to sequential and random designs,respectively.In conclusion,the combination of the direct selection strategy with IAPGA seed orchard design aimed at minimizing inbreeding offered an efficient approach for establishing advanced-generation P.tabuliformis seed orchards.展开更多
Crop Breeding is a compulsory course for agriculture-related majors and serves as an important platform for cultivating talents in agriculture,rural areas and farmers.Curriculum ideological and political education in ...Crop Breeding is a compulsory course for agriculture-related majors and serves as an important platform for cultivating talents in agriculture,rural areas and farmers.Curriculum ideological and political education in the course of Crop Breeding can not only impart professional knowledge to students,but also shape their correct outlook on life,world and values.Based on elaborating the necessity of integrating curriculum ideological and political education into the Crop Breeding course,this paper deeply explored ideological and political elements and achieved their organic integration with professional knowledge.Throughout the teaching process,the educational effect of combining professional knowledge instruction with ideological and political education has been achieved,thereby creating new pathways for ideological and political development in the Crop Breeding course.While enabling students to learn and master basic theories,developmental trends,and cutting-edge knowledge of the discipline,this approach enhances students sense of identity and belonging to the profession,cultivates their dedication to agriculture,rural areas,and farmers,and strengthens their sense of responsibility and historical mission in revitalizing agriculture.Therefore,it can foster high-quality agricultural talents for China s rural revitalization strategy.展开更多
Crop disease is best combated with host resistance,this approach rests on an understanding of pathogen-host interaction mechanisms and the availability of resistance genes and breeding materials.This special issue col...Crop disease is best combated with host resistance,this approach rests on an understanding of pathogen-host interaction mechanisms and the availability of resistance genes and breeding materials.This special issue collects 12 articles reporting recent progress in crop disease-resistance research.展开更多
Soybean seeds contain approximately 40% protein,making soybeans an important source of plant-based protein.Research on QTN mapping,molecular design breeding and mining of genes related to seed protein formation provid...Soybean seeds contain approximately 40% protein,making soybeans an important source of plant-based protein.Research on QTN mapping,molecular design breeding and mining of genes related to seed protein formation provides guiding significance for the analysis of the underlying genetic mechanisms of seed protein formation and the selection of high-protein varieties.The seed protein contents(SPCs)of 144 lines of a soybean four-way recombinant inbred line(FW-RIL)population were determined in 8 environments.A three-variance component multisite random effects mixed linear model(3VmrMLM)was used to conduct a genome-wide association study on protein content.A single detected QTN explained 0.53%-3.37% of the phenotypic variation.A molecular-assisted selection breeding model containing the18 QTNs explained 51.97% of the phenotypic variation in protein content.Eight biparental and five triparental crosses that produced excellent lines with the greatest protein content-related genotype values that could be generated by phenotypic and molecular-assisted selection were screened.An LD block of 17QTNs(QEIs)was identified,and one key candidate gene related to protein formation was predicted by haplotype analysis.The proportion of Hap 1 varieties in the spring-sowing soybean region in North China was lower than those in the Huang-Huai-Hai soybean region in Central China and the multiripe soybean region in South China.The proportion of Hap 1 varieties among the wild varieties and landraces was greater than that among the improved varieties.The results of this study provide important insights into the genetic basis of soybean protein content and information to aid in molecular design breeding methods to improve protein content.展开更多
‘Xiangchundou 36’is a new high-yield spring soybean cultivar bred by the Crop Research Institute of Hunan Province.This cultivar was bred in 2014 by the pedigree method with‘Xiangchundou V7’as the male parent and...‘Xiangchundou 36’is a new high-yield spring soybean cultivar bred by the Crop Research Institute of Hunan Province.This cultivar was bred in 2014 by the pedigree method with‘Xiangchundou V7’as the male parent and‘Youchun 1204’as the female parent.The cultivar showed high yields and excellent comprehensive traits in all levels of tests carried out from 2019 to 2023.In 2024,it was approved by Hunan Provincial Crop Variety Certification Committee,with the certification number Xiangshendou 20241004.‘Xiangchundou 36’was suitable for planting as a spring soybean cultivar in Hunan Province.展开更多
基金partially supported by the Construction of Collaborative Innovation Center of Beijing Academy of Agricultural and Forestry Sciences(KJCX20240406)the Beijing Natural Science Foundation(JQ24037)+1 种基金the National Natural Science Foundation of China(32330075)the Earmarked Fund for China Agriculture Research System(CARS-02 and CARS-54)。
文摘The security of the seed industry is crucial for ensuring national food security.Currently,developed countries in Europe and America,along with international seed industry giants,have entered the Breeding 4.0 era.This era integrates biotechnology,artificial intelligence(AI),and big data information technology.In contrast,China is still in a transition period between stages 2.0 and 3.0,which primarily relies on conventional selection and molecular breeding.In the context of increasingly complex international situations,accurately identifying core issues in China's seed industry innovation and seizing the frontier of international seed technology are strategically important.These efforts are essential for ensuring food security and revitalizing the seed industry.This paper systematically analyzes the characteristics of crop breeding data from artificial selection to intelligent design breeding.It explores the applications and development trends of AI and big data in modern crop breeding from several key perspectives.These include highthroughput phenotype acquisition and analysis,multiomics big data database and management system construction,AI-based multiomics integrated analysis,and the development of intelligent breeding software tools based on biological big data and AI technology.Based on an in-depth analysis of the current status and challenges of China's seed industry technology development,we propose strategic goals and key tasks for China's new generation of AI and big data-driven intelligent design breeding.These suggestions aim to accelerate the development of an intelligent-driven crop breeding engineering system that features large-scale gene mining,efficient gene manipulation,engineered variety design,and systematized biobreeding.This study provides a theoretical basis and practical guidance for the development of China's seed industry technology.
基金supported by Biological Breeding-National Science and Technology Major Project(2023ZD0407501)National Natural Science Foundation of China(31861143003)Innovation Program of Chinese Academy of Agricultural Sciences.
文摘Computer simulation permits answering theoretical and applied questions in animal and plant breeding.Blib is a novel multi-module simulation platform,which is able to handle more complicated genetic effects and models than most existing tools.In this study,we describe one major and unified application module of Blib,i.e.,ISB(abbreviated from in silico breeding),for simulating the three categories of breeding programs for developing clonal,pure-line and hybrid cultivars in plants.Genetic models on environments and breeding-targeted traits,one or several parental populations,and a number of breeding methods are key elements to run simulation experiments in ISB,which are arranged in three external input files by given formats.Applications of ISB are illustrated by three case studies,representing the three categories of plant breeding programs.Under the condition that 5000 F1 progenies were generated and tested from 50 heterozygous parents,Case study I showed that 50 crosses,each of 100 progenies,made the best balance between genetic achievement and field cost.In Case study II,one optimum breeding method was identified by which the pure lines with high yield and medium maturity could be developed.Case study III investigated the genetic consequence in hybrid breeding from five testers.One tester was identified for the simultaneous improvement in F1 hybrids and inbred lines.In summary,ISB identified a balanced crossing scheme,an optimum pure-line selection method,and an optimized tester in three case studies which are relevant to plant breeding.We believe the prediction by simulation would be highly required in front of the next generation of breeding to be driven by informatics and intelligence.
文摘Molecular tools have drawn the attention ofmodern plant breeders for its great precision and superiority.As the global population is increasing gradually,food production should be enhanced to feed the growing population.Therefore,precise and fast breeding tools are becoming obvious.Moreover,climate change has become a critical issue in crop improvement.Advanced breeding methods are vital to combat the impact of climate change,including biotic and abiotic stresses.Major molecular techniques,such as‘CRISPR-Cas’mediated‘genome editing’,‘marker-assisted selection(MAS)’,‘whole genome sequencing’,‘RNAi’,transgenic approach,‘high-throughput phenotyping(HTP)’,mutation breeding,have been proven superior over traditional breeding in terms of precision,efficiency,and speed in developing stress-resistant improved varieties.This review explores the potential and superiority ofmolecular breeding methods and highlights the gaps(time,cost,efficiency,etc.)in traditional breeding methods,where modern breeding programs,asmentioned,are effective.Furthermore,this reviewwill focus on the necessity of keymodern plant breeding techniques as a foundation for sustainable farming practices to address emerging environmental challenges,ensure food security,and improve the yield and quality of crops.
基金supported by the National Natural Science Foundation of Youth Project“Research on the Environmental-economic Synergistic Mechanism and Promotion Strategy of Farming and Breeding Circular Pattern in the Black Soil Region of Northeast China”[Grant No.72303087].
文摘This study uses prefecture-level city statistical data from China from 2000-2022 to measure the supply and demand of livestock manure nitrogen nutrients and calculates farmland livestock carrying capacity using the nitrogen nutrient balance method.We investigate nitrogen supply and demand and livestock carrying capacity in northeast China by comparing emissions from 2000-2022 over the past several decades.The poultry and livestock industry in northeast China has changed significantly over the past two decades:pigs are now the most bred animal and poultry production has increased dramatically.Regional livestock nitrogen emissions are influenced primarily by the size of the local livestock industry chain.Due to regional differences,each region has unique breeding structures.We also predict the anticipated situation in 2050 using the business-as usual scenario.High-risk livestock carrying capacity areas will be concentrated in the northeast and southeast regions,with significantly increased risk indices,compared with those of 2022,particularly in Shenyang,Fushun,and Tieling.Therefore,promoting farming and breeding,improving livestock manure utilization,and returning manure to nearby farmlands are crucial for meeting agricultural green development goals.
基金funded by the United Arab Emirates UniversityResearch Officegrant number 12F041 to KM。
文摘Advancements in molecular approaches have been utilized to breed crops with a wide range of economically valuable traits to develop superior cultivars.This review provides a concise overview of modern breakthroughs in molecular plant production.Genotyping and high-throughput phenotyping methods for predictive plant breeding are briefly discussed.In this study,we explore contemporary molecular breeding techniques for producing desirable crop varieties.These techniques include cisgenesis,clustered regularly interspaced short palindromic repeat(CRISPR/Cas9)gene editing,haploid induction,and de novo domestication.We examine the speed breeding approach-a strategy for cultivating plants under controlled conditions.We further highlight the significance of modern breeding technologies in efficiently utilizing agricultural resources for crop production in urban areas.The deciphering of crop genomes has led to the development of extensive DNA markers,quantitative trait loci(QTLs),and pangenomes associated with various desirable crop traits.This shift to the genotypic selection of crops considerably expedites the plant breeding process.Based on the plant population used,the connection between genotypic and phenotypic data provides several genetic elements,including genes,markers,and alleles that can be used in genomic breeding and gene editing.The integration of speed breeding with genomic-assisted breeding and cutting-edge genome editing tools has made it feasible to rapidly manipulate and generate multiple crop cycles and accelerate the plant breeding process.Breakthroughs in molecular techniques have led to substantial improvements in modern breeding methods.
基金Supported by Central Government Funds for Guiding Local Scientific and Technological Development(24ZYQF002)Major Science and Technology Project of Gansu Province(24ZDNF001)+1 种基金National Key R&D Program"Exploration and Utilization of Disease-and Pest-Resistant and High-Yield Gene Resources in Maize"(2022YDF1201800)Key Laboratory of Mechanized Maize Variety Creation,Ministry of Agriculture and Rural Affairs.
文摘The intensification of global warming has led to the continuous outbreak of southern rust(Puccinia polysora Underw.)in major maize-producing regions worldwide.The severe outbreak in the Huang-Huai-Hai summer maize region of China in 2021 caused yield losses exceeding 50%in some plots,and this disease has been included in the List of Key Crop Pests and Diseases.This paper systematically reviews the molecular resistance mechanisms of maize to southern rust,focusing on the immune mechanisms mediated by NLR family genes and the characteristics of the Bin 10.01 resistance gene cluster;it summarizes the advances in research of molecular breeding technologies such as gene marker development,map-based cloning,and gene editing;combined with the disease characteristics of the spring-sown maize region in Southwest China and the summer-sown maize region in Huang-Huai-Hai,it elaborates on regionally adapted prevention and control strategies;integrating breeding practices of Dunhuang Seed Industry Group(e.g.,Dunyu 810 and Dunyan 616),it proposes a full-chain solution of"precision gene pyramiding-heterotic group utilization-regional promotion".It is expected to provide theoretical and technical references for molecular breeding of maize resistance to southern rust.
基金Supported by Sichuan Innovation Team Project of China Agricultural Industry Research System(SCCXTD-2023-19)Key R&D Project of Sichuan Provincial Department of Science and Technology(2022YFS0592)Sichuan Provincial Science and Technology Innovation Seedling Project(MZGC20230119,MZGC20230126).
文摘[Objectives]To obtain a novel cultivar of Chuanminshen violaceum with robust growth,high yield,and stable genetic traits.[Methods]A systematic selection method was employed to conduct a multi-point testing and regional production trial utilizing C.violaceum strain CMS1,which was sourced from a semi-wild population in Langzhong,Sichuan Province,as the experimental material.In contrast,C.violaceum CMS2,derived from a cultivated population in Langzhong,Sichuan Province,along with a mixed population of C.violaceum cultispecies from the same region,served as the control material.Through a comparative analysis of phenological periods,agronomic traits,yield,and quality,a novel cultivar,‘Chengming No.1’,was ultimately selected and developed based on its superior comprehensive evaluation.[Results]In the phenological period survey conducted as part of a two-year comparative study,the CMS1 strain exhibited a shorter growth cycle compared to others.Furthermore,the agronomic characteristics of the CMS1 strain were superior to those of both CMS2 and CK.The average yields of CMS1,CMS2,and CK in the 2019 cultivar comparison test and yield trial were 468.88,448.52,and 422.15 kg/667 m 2,respectively.This resulted in an average yield increase of 11.07%for CMS1 compared to CK and 6.25%for CMS2 compared to CK.The average yields of CMS1,CMS2,and CK in the 2020 cultivar comparison test and yield trial were 482.69,467.54,and 436.82 kg/667 m 2,respectively.CMS1 exhibited an average yield increase of 10.50%compared to CK,while CMS2 demonstrated an average yield increase of 7.03%relative to CK.Furthermore,the average yield of CMS1 per 667 m 2 achieved a statistically significant level compared to CK in both years of the study.In multiple-point comparison and yield trials conducted in 2019 and 2020,the CMS1 strain exhibited a total ash content of 15.30%,an acid-insoluble ash content of 1.30%,a moisture content of 10.80%,and water-soluble extract amounting to 11.40%.All of the indicators conformed to the criteria established by the Sichuan Standards for Chinese Medicinal Materials(2010 Edition).[Conclusions]The CMS1 strain successfully passed the field technical appraisal for the novel cultivar of C.violaceum in 2021.This cultivar is characterized by high yield,excellent quality,and stable traits.In 2022,it received validation from the Sichuan Provincial Committee for the Certification of Non-Staple Crop Varieties and was officially named‘Chengming No.1’(CRY 2022002).This cultivar demonstrates significant potential for widespread cultivation.
文摘Numerous hypotheses predict associations between phenotype-associated breeder traits and reproductive success.In secondary cavity-nesting passerine birds,which have been investigated most,up to more than 90parental characteristics have been linked to at least one field measure of breeding performance.However,within study populations,different parental traits,such as clutch size,first-egg date,egg size,nest architecture,plumage colour,adult morphometry,or song performance,are often weakly correlated across female and/or male breeders.Furthermore,many of these studies have been conducted outside the theoretical framework of the'Individual Optimisation Hypothesis' of clutch size(IOH).IOH predicts that:(i) females with larger clutches will have larger broods at hatching and fledging compared to those with smaller clutches;and(ii) clutch size,which is adaptively adjusted to the parents' ability to rear nestlings,should always maximize the percentage of eggs producing fledglings so that variation in clutch size becomes disconnected from variation in breeding success.In this paper,we present the first detailed review of implications of IOH for parental characters other than clutch size.Our review covered 188 non-experimental studies and 1074 statistical results that examined how parental traits influence breeding success in Western Palearctic Great Tits(Parus major),Blue Tits(Cyanistes spp.),and flycatchers(Ficedula spp.).Clutch size explained one third of the variation in brood size at hatching and fledging within study populations.However,most parental characteristics associated weakly with the number of hatchlings or fledglings,likely because they did not correlate with clutch size.Overall,parental traits were poorly correlated with the proportion of hatchlings and fledglings per egg.We discuss why intraspecific variation in phenotype-associated breeder traits is often disconnected from interindividual differences in breeding success,and highlight the importance of underexplored research problems in avian breeding biology.
基金financially supported by the Jiangsu Provincial Key R&D Program(Modern Agriculture)(BE2023313)the National Natural Science Foundation of China(31901535)the China Agricultural Research System(CARS-03).
文摘The identification of haploid induction genes has promoted the advancement of several breeding technologies.Haploid induction genes in wheat,coupled with visual marker,have led to the establishment of a novel in vivo doubled-haploid(DH)technology.When combined with dominant male sterile genes,this innovative DH method presents a promising avenue for high-throughput production of DH lines.Furthermore,the application of haploid induction genes has facilitated the establishment of other innovative breeding technologies,such as HI-Edit and cyto-swapping in creating cytoplasmic male sterility lines,as well as synthetic apomixis.This review summarizes the progress of DH technology in wheat and presents examples of application of haploid induction genes in accelerating breeding practices,aiming to promote the development of these innovative technologies in wheat and enhancing wheat breeding efficiency.
基金funded by the European Commission H2020 Research and Innovation Programme through the HARNESSTOM innovation action(Grant No.101000716)Grant CIPROM/2021/020(project SOLECO)funded by Conselleria d’Innovació,Universitats,Ciència i Societat Digital(Generalitat Valenciana,Spain)Pietro Gramazio received a post-doctoral fellowship(Grant No.RYC2021-031999-I)funded by MCIN/AEI/10.13039/501100011033 and by“European Union NextGenerationEU/PRTR”。
文摘Unlike other major crops,little research has been performed on tomato to reduce the generation time for speed breeding.We evaluated several agronomic treatments to reduce the generation time of tomato in the‘M82'(determinate)and‘Moneymaker'(indeterminate)varieties and evaluated the best combination in conjunction with embryo rescue.Five container sizes with volumes of 0.2 L(XS),0.45 L(S),0.8 L(M),1.3 L(L),and6 L(XL),were evaluated in the first experiment under the autumn cycle.We found that plants grown in XL containers exhibited better development and required less time from sowing to anthesis(DSA)and from anthesis to fruit ripening(DAR).In the second experiment,using XL containers in the autumn-winter cycle,we evaluated the effects of cold priming at the cotyledonary stage,water stress,P supplementation,and K supplementation on generation time.Compared to the control,we found that cold priming significantly reduced the number of leaves,plant height to first the inflorescence,and DSA(2.7 d),whereas K supplementation reduced the DAR(8.8 d).In contrast,water stress and P supplementation did not significantly affect any of the measured traits like DAR,DSA or fruit set.To validate these data,in a third experiment with XL containers in the spring-summer cycle,the combination of cold priming and K supplementation was tested,confirming the significant effect of this combination on the reduction of generation time(2.9 d for DSA and 3.9 d for DAR)compared to the control.Embryo rescue during the cell expansion cycle(average of 22.0 d and 23.3 d after anthesis for‘M82'and‘Moneymaker',respectively)allowed the shortening of the generation time by 8.7 d in‘M82'and 11.6 d in‘Moneymaker'compared to the in planta fruit ripening.The combination of agronomic treatments with embryo rescue can effectively increase the number of generations per year from three to four for speed breeding of tomato.
基金supported by the National Natural Science Foundation of China (No.32201304)the Fundamental Research Funds for the Central Universities (No.2412022QD026)。
文摘The transformation of natural habitats into human-modified landscapes has far-reaching consequences for species distribution and abundance.As species adapt to these changing environments,shifts in distribution patterns,niche dynamics,and interspecies interactions may occur,impacting biodiversity at multiple levels and potentially leading to ecosystem imbalances.This study aims to assess the impact of variations in vegetation composition and human disturbance on the distribution of sympatric breeding birds and to determine the extent of niche overlap or differentiation among these species.We conducted field surveys and collected data on bird distribution,vegetation composition,and level of human disturbance in eastern Inner Mongolian grasslands.We focused on the six most frequently co-occurring breeding birds,representing a mix of sparrows,larks,and corvids.Generalized Additive Models revealed varying responses of species occurrence along habitat gradients.Species like the Eurasian Skylark(Alauda arvensis),Mongolian Lark(Melanocorypha mongolica),and Asian Shorttoed Lark(Calandrella cheleensis),increased in larger and more connected habitats,while others,like the Tree Sparrow(Passer montanus),Eurasian Magpie(Pica pica),and Barn Swallow(Hirundo rustica),adapted to more fragmented habitats.Niche analysis indicated habitat generalists tended to occupy larger niches than grassland specialists.Substantial niche overlap was also found among the six co-occurring bird species.Conservation efforts should consider the specific needs of specialist species and strive to maintain or restore critical grassland habitats.Additionally,promoting sustainable agricultural practices that balance the needs of birds and human activities can contribute to the coexistence of generalist and specialist bird species in modified landscapes.
基金supported by the Russian Science Foundation(grant number 23-24-00042).
文摘Dispersal is an important life history trait with signifcant consequences for spatially structured populations,as the exchange of individuals between habitat patches is crucial for maintaining metapopulation connectivity.In this study,we used a long-term data set(2005–2023)to describe dispersal patterns in a patchy population of the Western Yellow Wagtail Motacilla fava within a large(approximately 1,300 km2)study area in the boreal zone of European Russia.We quantifed dispersal distances for birds that dispersed outside their natal or breeding habitat patches and applied a multistate capture–recapture approach to estimate natal and breeding dispersal probabilities.Of 395 adult wagtails and 1,610 nestlings ringed,3%of birds ringed as adults and 3%of birds ringed as nestlings were resighted outside their natal or breeding patches.The probability of natal dispersal(0.29±0.05)was signifcantly higher than the probability of breeding dispersal(0.05±0.01).The median natal dispersal distances(2.8 km for males,3.9 km for females)were the same as the median breeding dispersal distances(2.7 km for males,3.9 km for females).We did not fnd a signifcant effect of the fedging date on either the natal dispersal distance or the natal dispersal probability.Similarly,we did not fnd a signifcant effect of the previous reproductive success on either the breeding dispersal distance or the breeding dispersal probability.Our results indicate that strong breeding site fdelity and short-distance natal dispersal are the dominant dispersal strategies in a patchy population of the western yellow wagtail.
基金supported by Jilin Provincial Department of Education(JKH20230394KJ).
文摘Clustered regularly interspaced short palindromic repeat sequences(CRISPR)and their accompanying proteins(Cas),commonly presenting in bacteria and archaea,make up the CRISPR/Cas system.As one of the funda-mental sources of nutrition for humans,edible crops play a crucial role in ensuring global food security.CRISPR/Cas9 gene editing has been applied to improve many crop traits,such as increasing nitrogen utilization efficiency,creating male sterile germplasm,and regulating tiller and spikelet formation.This paper provides a comprehensive overview of the use of CRISPR/Cas gene editing technology in crop genomes,covering the targeted genes,the types of editing that take place,the mechanism of action.Finally,we also discussed the efficiency of gene editing and pointed the future direction on how to speed up crop molecular breeding,increase breeding effectiveness,and produce more new crop varieties with high qualities.
基金funded by the Research Organization for Agricultural and Food,the National Research and Innovation Agency(BRIN),and Universitas Gadjah Mada.
文摘Rice,as a primary commodity,needs to be increased in production while facing the sustainability challenges of limited land,water resources,and climate change.The demand for rice productivity was not enough to rely only on the fertile fields’ability;it is necessary to consider the rainfed land potential.Cultivation in rainfed land involves biophysical pressure,lowproduction,and limited access to superior varieties.Participatory rice breeding aimed to identify farmers’trait preferences and develop acceptable lines.A bottom-up approach involved 203 farmers from four rainfed fields in Indonesia,i.e.,Semarang-Central Java,Kulon Progo-Yogyakarta,Tabanan-Bali,andGunungkidul-Yogyakarta.The experiment on February-June 2024 tested six lines(G2,G3,G4,G5,G9,and G10)and four varieties(Situ Bagendit,Gamagora7,Inpari IRNutri Zinc,and Inpago12 Agritan).Farmers’involvement in evaluating the suitability of genotypes involved using Multidimensional Scaling and Importance-Performance Analysis.Breeders added comprehensive analysis in the growing environment with Genotype Environment Interaction,and key attributes of leverage analysis from farmers must be considered.Genotype performance in the Multidimensional Scaling feasibility indicated that yield primary determinants were panicle type,disease resistance,leaf characteristics,and environmental resilience.Importance Performance Analysis verified that G3,G9,G2,and G4 had a preference at the farm level.Genotype Environment Interaction reveals that G3,G4,and G2 were ideal lines with high potential yields,suitability,and adaptability on rainfed land.Participatory rice breeding in rainfed land integrates farmers’assessments and breeders’observations to realize the most preferred genotypes according to the challenges for sustainable agriculture.
文摘Climate change can affect rainfall and temperature worldwide,and the ability of birds to react to these changes can be mirrored by studying population phenology and their breeding success.Some European species have advanced arrival and breeding dates in response to local spring advancement,but conditions experienced during winter seasons may also affect arrival dates and subsequent breeding success.We utilized data collected from 1983 to 2020 in four colonies of Common Swift(Apus apus)in Northern Italy(5486 breeding attempts)to examine the variations of laying date and breeding success in relation to non-breeding conditions(previous winter in Africa)and local conditions in breeding period(spring).Climatic conditions were monitored using the North Atlantic Oscillation(NAO)and El Nino Southern Oscillation(ENSO)indices to describe conditions experienced in winter quarters and the local temperature and rainfall conditions of the breeding area.Common Swifts laid their eggs earlier in warmer springs,and this in turn had a positive effect on breeding success.We did not find evidence for any effects of African winter conditions on laying date nor on breeding success.However,because studies made in the same area have demonstrated a relationship of winter conditions(NAO)on individual survival,our data highlight the importance of considering environmental variables across the annual life cycle to understand variation in Common Swift populations.
基金financially supported by the Biological BreedingNational Science and Technology Major Project(2023ZD0405806)the National Key R&D Program for the 14th Five-Year Plan in China(2022YFD2200304).
文摘The level of genetic variation within a breeding population affects the effectiveness of selection strategies for genetic improvement.The relationship between genetic variation level within Pinus tabuliformis breeding populations and selection strategies or selection effectiveness is not fully investigated.Here,we compared the selection effectiveness of combined and individual direct selection strategies using half-and full-sib families produced from advanced-generation P.tabuliformis seed orchard as our test populations.Our results revealed that,within half-sib families,average diameter at breast height(DBH),tree height,and volume growth of superior individuals selected by the direct selection strategy were higher by 7.72%,18.56%,and 31.01%,respectively,than those selected by the combined selection strategy.Furthermore,significant differences(P<0.01)were observed between the two strategies in terms of the expected genetic gains for average tree height and volume.In contrast,within full-sib families,the differences in tree average DBH,height,and volume between the two selection strategies were relatively minor with increase of 0.17%,2.73%,and 2.21%,respectively,and no significant differences were found in the average expected genetic gains for the studied traits.Half-sib families exhibited greater phenotypic and genetic variation,resulting in improved selection efficiency with the direct selection strategy but also introduced a level of inbreeding risk.Based on genetic distance estimates using molecular markers,our comparative seed orchard design analysis showed that the Improved Adaptive Genetic Programming Algorithm(IAPGA)reduced the average inbreeding coefficient by 14.36% and 14.73% compared to sequential and random designs,respectively.In conclusion,the combination of the direct selection strategy with IAPGA seed orchard design aimed at minimizing inbreeding offered an efficient approach for establishing advanced-generation P.tabuliformis seed orchards.
基金Supported by Key Educational Reform Project in Hunan University of Arts and Science(JGZD2237).
文摘Crop Breeding is a compulsory course for agriculture-related majors and serves as an important platform for cultivating talents in agriculture,rural areas and farmers.Curriculum ideological and political education in the course of Crop Breeding can not only impart professional knowledge to students,but also shape their correct outlook on life,world and values.Based on elaborating the necessity of integrating curriculum ideological and political education into the Crop Breeding course,this paper deeply explored ideological and political elements and achieved their organic integration with professional knowledge.Throughout the teaching process,the educational effect of combining professional knowledge instruction with ideological and political education has been achieved,thereby creating new pathways for ideological and political development in the Crop Breeding course.While enabling students to learn and master basic theories,developmental trends,and cutting-edge knowledge of the discipline,this approach enhances students sense of identity and belonging to the profession,cultivates their dedication to agriculture,rural areas,and farmers,and strengthens their sense of responsibility and historical mission in revitalizing agriculture.Therefore,it can foster high-quality agricultural talents for China s rural revitalization strategy.
文摘Crop disease is best combated with host resistance,this approach rests on an understanding of pathogen-host interaction mechanisms and the availability of resistance genes and breeding materials.This special issue collects 12 articles reporting recent progress in crop disease-resistance research.
基金funded by the Opening Competition Mechanism to Select the Best Candidates Project of Heilongjiang Province for Science and Technology Science(2023ZXJ02B02)。
文摘Soybean seeds contain approximately 40% protein,making soybeans an important source of plant-based protein.Research on QTN mapping,molecular design breeding and mining of genes related to seed protein formation provides guiding significance for the analysis of the underlying genetic mechanisms of seed protein formation and the selection of high-protein varieties.The seed protein contents(SPCs)of 144 lines of a soybean four-way recombinant inbred line(FW-RIL)population were determined in 8 environments.A three-variance component multisite random effects mixed linear model(3VmrMLM)was used to conduct a genome-wide association study on protein content.A single detected QTN explained 0.53%-3.37% of the phenotypic variation.A molecular-assisted selection breeding model containing the18 QTNs explained 51.97% of the phenotypic variation in protein content.Eight biparental and five triparental crosses that produced excellent lines with the greatest protein content-related genotype values that could be generated by phenotypic and molecular-assisted selection were screened.An LD block of 17QTNs(QEIs)was identified,and one key candidate gene related to protein formation was predicted by haplotype analysis.The proportion of Hap 1 varieties in the spring-sowing soybean region in North China was lower than those in the Huang-Huai-Hai soybean region in Central China and the multiripe soybean region in South China.The proportion of Hap 1 varieties among the wild varieties and landraces was greater than that among the improved varieties.The results of this study provide important insights into the genetic basis of soybean protein content and information to aid in molecular design breeding methods to improve protein content.
文摘‘Xiangchundou 36’is a new high-yield spring soybean cultivar bred by the Crop Research Institute of Hunan Province.This cultivar was bred in 2014 by the pedigree method with‘Xiangchundou V7’as the male parent and‘Youchun 1204’as the female parent.The cultivar showed high yields and excellent comprehensive traits in all levels of tests carried out from 2019 to 2023.In 2024,it was approved by Hunan Provincial Crop Variety Certification Committee,with the certification number Xiangshendou 20241004.‘Xiangchundou 36’was suitable for planting as a spring soybean cultivar in Hunan Province.
