In natural ecosystems,the timely abscission of seeds in wild plants is a crucial adaptive trait that contributes to reproductive success,population renewal,and colony expansion(Thurber et al.2010).In contrast,the tend...In natural ecosystems,the timely abscission of seeds in wild plants is a crucial adaptive trait that contributes to reproductive success,population renewal,and colony expansion(Thurber et al.2010).In contrast,the tendency for high seed shattering in domesticated crops,such as rice,not only reduces paddy yield but also complicates mechanized harvesting.展开更多
Sesame is a labor intensive crop with limited mechanized harvesting mainly due to the seed shattering(SS)trait.In this study,we performed a genetic analysis of the seed-shattering resistance(SR)trait with a SR sesame ...Sesame is a labor intensive crop with limited mechanized harvesting mainly due to the seed shattering(SS)trait.In this study,we performed a genetic analysis of the seed-shattering resistance(SR)trait with a SR sesame mutant 12M07.Unlike the SS type,the parenchyma cells in the abscission zone of the 12M07 mutant are arranged loosely but adhere to the seed coat.Inheritance analysis of six generations derived from 12M07(SR)×Xiangcheng Dazibai(SS)showed that the SR trait is recessive and controlled by a single gene pair.Association mapping of the F2population with 888,619 variants(single-nucleotide polymorphisms(SNPs)and insertion-deletion(InDels))and 31,884 structural variations(SVs)determined that only SV12002 in the 5′upstream region of gene Sindi0765000(named SiHEC3)in Chr.3 was significantly associated with the SR trait.SiHEC3 encodes the bHLH transcription factor.A 1,049 bp deletion occurred in the 5′UTR of Sihec3 in 12M07.SiHEC3 is mainly expressed in developing placental tissues,with the expression peaking in capsules at 45 days after pollination.A dual-luciferase reporter assay in tobacco confirmed that the promoter activity of Sihec3 was reduced because of the deletion of the 1,049 bp promoter sequence.Protein–protein interaction network analysis showed that HEC3 is co-expressed with nine key proteins,such as SHATTERPROOF1(SHP1)and SEEDSTICK(STK)which participate in the secondary wall biosynthesis of the abscission layer in plants.The findings of this study show the important function of Sihec3corresponding with the SR trait and supply the genetic information for breeding new varieties that are amenable to mechanized harvesting in sesame and other crops.展开更多
Soil structure and nutrient ingredient before and after shattering and returning sugarcane leaf as well as its technologies and methods were comparatively analyzed in this study to discuss the main reasons primarily,w...Soil structure and nutrient ingredient before and after shattering and returning sugarcane leaf as well as its technologies and methods were comparatively analyzed in this study to discuss the main reasons primarily,while the controlling technologies were proposed by combining cultivation,management and technical measures.展开更多
The newly developed hybrid rice combination 'Xieyou 9308' (Xieqingzao A/T9308) has been regarded as a super-high-yielding rice variety, of which the yield potential reached as high as 12 t/ha. However, its hig...The newly developed hybrid rice combination 'Xieyou 9308' (Xieqingzao A/T9308) has been regarded as a super-high-yielding rice variety, of which the yield potential reached as high as 12 t/ha. However, its high shattering characteristic (as high as 60%) has limited its wider application. In the current experiment, a non-shattering mutant line, M9308, was developed from T9308 by gamma irradiation. Comparisons were made but no marked differences were found between T9308 and M9308 as well as between their F1 hybrids crossed to Xieqingzao A for major agronomic and grain quality characters as well as resistance to diseases. Genetic analysis indicated that the non-shattering character of M9308 was governed by a single recessive gene.展开更多
Paclobutrazol was sprayed at 0, 150, and 300 mg L-1 during the closed canopy stage and the early bud stage with two high-yielding cultivars of rapeseed, Yangguang 2009 and Fengyou 520. The impact of paclobutrazol on t...Paclobutrazol was sprayed at 0, 150, and 300 mg L-1 during the closed canopy stage and the early bud stage with two high-yielding cultivars of rapeseed, Yangguang 2009 and Fengyou 520. The impact of paclobutrazol on the accumulation and distribution of biomass and its relationship with yield, resistance to lodging and pod shattering were determined. All the treatments increased the resistance as well as yield. The maximum yield was obtained when paclobutrazol was applied during the closed canopy stage at 150 mg L-1. The plant's resistance to both lodging and pod shattering was the maximum when paclobutrazol was applied during the early bud stage at 300 mg L-1. Paclobutrazol also delayed senescence, with the higher concentration or later spraying leading to more obvious effects; improved the net assimilation rate before the early bud stage; and promoted the relative growth rate of the main growth organ at each stage of growth and maximized the rate and quantities of biomass accumulation. However, at the higher concentration and later spraying, the increments were smaller. The spraying also increased the rates of biomass allocation to roots, leaves, and pods, but the rate of allocation to stems decreased as the plants grew shorter. The higher allocation to roots and the lower allocation to stems favoured resistance to both lodging and pod shattering whereas higher allocation to leaves and pods favoured yield. The higher concentration or late spraying led to excessive biomass being allocated to roots, which decreased leaf biomass during the bud stage, leading to greater resistance but lower yields.展开更多
Seed shattering is a common problem in early soybean production system (ESPS) in the Midsouth, which mainly uses maturity group (MG) IV soybeans. Many studies have been conducted on the genetics of soybean shattering ...Seed shattering is a common problem in early soybean production system (ESPS) in the Midsouth, which mainly uses maturity group (MG) IV soybeans. Many studies have been conducted on the genetics of soybean shattering resistance for individual varieties;however, information on the physiology of soybean shattering pattern under specific environmental conditions, which is often critical to soybean growers, is very limited. Field experiments were conducted at Stoneville MS from 2007 to 2009 to investigate the shattering patterns of 80-132 MG IV soybean varieties each year. Results from 2007 and 2008 indicated that, when April-planted MG IV soybeans matured in mid- to late August, pods of most soybean varieties did not shatter within the first three weeks after maturity (WAM) and there was no significant shattering effect on final yields. However, differences in pod shattering among the varieties became apparent in the fourth WAM. Late-planted MG IV soybeans, which matured in early September, had a low shattering rate and could hold seeds up to 6 WAM before reaching a critical shattering point. Most soybean varieties planted in April 2009 did not show significant pod shattering by the end of the fourth WAM. The critical point of shattering was not reached until 6 - 7 WAM. Relatively lower temperatures and abundant rainfall during the late growing season in 2009 may be the main reasons causing delayed shattering in April-planted MG IV soybeans. Results from the May-planting of 2007 and the April-planting of 2009 indicated that soybeans maturing after September have much less problematic shattering. Different weather patterns, especially temperature and rainfall in each year could be essential factors affecting seed shattering patterns.展开更多
Pod shattering is an important domesticated trait which can cause great economic loss of crop yield in cultivated soybean.In this study,we utilized two recombinant inbred line populations(RILs,CY,Huachun 2×Wayao;...Pod shattering is an important domesticated trait which can cause great economic loss of crop yield in cultivated soybean.In this study,we utilized two recombinant inbred line populations(RILs,CY,Huachun 2×Wayao;GB,Guizao 1×B13)to identify quantitative trait loci(QTLs)associated with pod shattering in soybean across multiple environments.A total of 14 QTLs for pod shattering were identified in the two RIL populations,which had LOD scores ranging from 2.64 to 44.33 with phenotypic variance explanation(PVE)ranging from 1.33 to 50.85%.One QTL qPS16-1,located on chromosome 16,included a well-known functional gene Pod dehiscence 1(Pdh1)that was reported previously.Ten new putative QTLs were validated in two RIL populations,and their LOD scores were between 2.55 and 4.24,explaining 1.33 to 2.60%of the phenotypic variation.Of which four novel QTLs(qPS01-1,qPS03-2,qPS05-1,and qPS07-1)could be detected in two environments where nine genes had specific changes in gene expression.Although the nine genes may have significant effects on pod shattering of soybean,their detailed functions still need to be further explored in the future.The results of this study will facilitate a better understanding of the genetic basis of the pod shattering-resistant trait and benefit soybean molecular breeding for improving pod shattering resistance.展开更多
Seed shattering refers to the phenomenon in which the pods split along the abdominal and back sutures before the crop is received,so that the seeds are spread.Seed shattering is vital to the reproduction of their offs...Seed shattering refers to the phenomenon in which the pods split along the abdominal and back sutures before the crop is received,so that the seeds are spread.Seed shattering is vital to the reproduction of their offspring in wild plants,but it is also the main cause of crop yield loss reason.Pod-explosion resistance is a complex process of physical and physiological and biochemical reactions.Soybean seed shattering phenomenon is widespread,which severely restricts the development of soybean industry.Seed shattering(pod cracking or fruit dropping)is essential for the reproduction of its offspring in wild plants,but it is also the main cause of crop yield loss.This article analyzes the morphology and structure of pods related to seed shattering from the morphology of pods.On the basis of the regularity of the occurrence of seed shattering and the summary of phenotypic index identification methods,physiologically introduced the regulation mechanism of key enzymes and endogenous hormones on seed shattering.The localization,labeling and cloning of seed shattering genes are introduced in molecular biology.The study focused on reviewing the latest advances in the research on soybean seed shattering characteristics,and discussed with the research results of related crops.Finally,the research and application of soybean seed shattering resistance were prospected for several aspects.展开更多
Sorghum[Sorghum bicolor(L.)Moench],a multipurpose C4 crop,is also a model species of the Poaceae family for plant research.During the process of domestication,the modification of seed dispersal mode is considered a ke...Sorghum[Sorghum bicolor(L.)Moench],a multipurpose C4 crop,is also a model species of the Poaceae family for plant research.During the process of domestication,the modification of seed dispersal mode is considered a key event,as the loss of seed shattering caused a significant increase in yield.In order to understand the seed shattering process in sorghum,we further studied eight previously identified divergent sorghum germplasm with different shattering degrees.We described their phenotypes in great detail,analyzed the histology of abscission zone,and conducted a gene co-expression analysis.We observed that the abscission layer of the most strong-shattering varieties began to differentiate before the 5-10 cm panicles development stage and was completely formed at flag leaf unfolding.The protective cells on the pedicels were also fully lignified by flowering.Through the weighted gene correlation network analysis(WGCNA),we mined for candidate genes involved in the abscission process at the heading stage.We found that these genes were mainly associated with such biological processes as hormone signal transmission(SORBI_3003G361300,SORBI_3006G216500,SORBI_3009G027800,SORBI_3007G077200),cell wall modification and degradation(SORBI_3002G205500,SORBI_3004G013800,SORBI_3010G022400,SORBI_3003G251800,SORBI_3003G254700,SORBI_3003G410800,SORBI_3009G162700,SORBI_3001G406700,SORBI_3004G042700,SORBI_3004G244600,SORBI_3001G099100),and lignin synthesis(SORBI_3004G220700,SORBI_3004G062500,SORBI_3010G214900,SORBI_3009G181800).Our study has provided candidate genes required for shedding for further study.We believe that function characterization of these genes may provide insight into our understanding of seed shattering process.展开更多
Dear Editor,The selection of non-shattering seeds has been a primary target during crop domestication,making wild rice suitable for human cultivation.Seed shattering involves development and separation of the abscissi...Dear Editor,The selection of non-shattering seeds has been a primary target during crop domestication,making wild rice suitable for human cultivation.Seed shattering involves development and separation of the abscission zone(AZ).The AZ consists of several layers of thin-walled,iso-diametrically flattened cells,marking the point at which the cells of the falling organ separate from the parent plant(Sexton and Roberts,1982).Many previously identified factors that regulate seed shattering,such as SH4,qSH1,qSH3,SHAT1,SSH1,and SH5,all participate in development of the AZ in rice(Wu et al.,2023a;2023b).However,what occurs at the cellular level to enable abscission and what induces the separation of the AZ in rice remain unclear.Here,we report that the major facilitator superfamily(MFS)gene SHATTERING ABORTION3(SHAT3)functions as a novel regulator of seed shattering in rice(Oryza sativa)by facilitating jasmonic acid(JA)accumulation in the AZ and pedicel(AZ-P)region to promote AZ separation.However,the non-shattering phenotype of shat3 cannot be complemented by exogenous JA,indicating that SHAT3 has unique functions that have yet to be explored.展开更多
The common vetch(Vicia sativa L.)is a self-pollinated annual forage legume that is widely distributed worldwide.It has wide adaptability and high nutritional value and is commonly used as an important protein source f...The common vetch(Vicia sativa L.)is a self-pollinated annual forage legume that is widely distributed worldwide.It has wide adaptability and high nutritional value and is commonly used as an important protein source for livestock feed.However,pod shattering seriously limits the yield of common vetch.To clarify the mechanism of pod shattering in common vetch,the pod walls of three shattering-resistant(SR)accessions(B65,B135,and B392)and three shattering-susceptible(SS)accessions(L33,L170,and L461)were selected for transcriptome sequencing.A total of 17,190 differentially expressed genes(DEGs)were identified in the pod wall of B135 and L461 common vetch at 5,10,15,20,and 25 days after anthesis.Kyoto Encyclopedia of Genes and Genomes(KEGG)analysis showed that“phenylpropanoid biosynthesis”was the most significantly enriched pathway,and 40 structural genes associated with lignin biosynthesis were identified and differentially expressed in B135 and L461 common vetch.We analysed the DEGs in the pod wall of three SR and three SS accessions at 15 days after anthesis,and most of the DEGs were consistent with the significant enrichment pathways identified in B135 and L461 common vetch.The total lignin content of SR accessions was significantly lower than the SS accessions.The present study lays a foundation for understanding the molecular regulatory mechanism of pod shattering related to lignin biosynthesis in common vetch and provides reference functional genes for breeders to further cultivate shattering-resistant common vetch varieties.展开更多
Pod coloration is a domestication-related trait in soybean,with modern cultivars typically displaying brown or tan pods,while their wild relative,Glycine soja,possesses black pods.However,the factors regulating this c...Pod coloration is a domestication-related trait in soybean,with modern cultivars typically displaying brown or tan pods,while their wild relative,Glycine soja,possesses black pods.However,the factors regulating this color variation remain unknown.In this study,we cloned and characterized L1,the classical locus responsible for black pods in soybean.By using map-based cloning and genetic analyses,we identified the causal gene of L1 and revealed that it encodes a hydroxymethylglutaryl-coenzyme A(CoA)lyase-like(HMGL-like)domain protein.Biochemical assays showed that L1 functions as a eucomic acid synthase and facilitates the synthesis of eucomic acid and piscidic acid,both of which contribute to coloration of pods and seed coats in soybean.Interestingly,we found that L1 plants are more prone to pod shattering under light exposure than l1 null mutants because dark pigmentation increases photothermal efficiency.Hence,pleiotropic effects of L1 on pod color and shattering,as well as seed pigmentation,likely contributed to the preference forl1 alleles during soybean domestication and improvement.Collectively,our study provides new insights into the mechanism of pod coloration and identifies a new target for future de novo domestication oflegume crops.展开更多
Pod shattering can lead to devastating yield loss of soybean and has been a negatively selected trait in soybean domestication and breeding.Nevertheless,a significant portion of soybean cultivars are still pod shatter...Pod shattering can lead to devastating yield loss of soybean and has been a negatively selected trait in soybean domestication and breeding.Nevertheless,a significant portion of soybean cultivars are still pod shattering-susceptible,limiting their regional and climatic adaptabilities.Here we performed genetic diagnosis on the shattering-susceptible trait of a national registered cultivar,Huachun6(HC6),and found that HC6 carries the susceptible genotype of a candidate Pod dehiscence 1(PDH1)gene,which exists in a significant portion of soybean cultivars.We next performed genome editing on PDH1 gene by clustered regularly interspaced short palindromic repeats(CRISPR)-CRISPR-associated protein 9(Cas9).In T2 progenies,several transgene-free lines with pdh1 mutations were characterized without affecting major agronomic traits.The pdh1 mutation significantly improved the pod shattering resistance which is associated with aberrant lignin distribution in inner sclerenchyma.Our work demonstrated that precision breeding by genome editing on PDH1 holds great potential for precisely improving pod shattering resistance and adaptability of soybean cultivars.展开更多
In this study, several typical tralts of weedy rice and its damage charac-teristics were analyzed. The resuIts showed that the shattering of weedy rice was sometimes weaker than that of conventional rice. The newIy-ha...In this study, several typical tralts of weedy rice and its damage charac-teristics were analyzed. The resuIts showed that the shattering of weedy rice was sometimes weaker than that of conventional rice. The newIy-harvested weedy rice seeds have certaln dormant period and a Iong active period, whiIe the conventional rice seeds have no dormant period but have a Iimited active period. In the direct seeding and intercropping rice fields where weedy rice occurs seriousIy Iast year, if not controI ed timeIy, weedy rice may caused a damage above 28%, sometimes even above 99%. After one season of cuItivation, the underground weedy rice and conventional rice seeds wiI be carbonized, Iosing their activity. The germination of underground weedy rice can be first induced, and when the Iast-season wheat is harvested, the germinated weedy rice can be kiI ed with 41% gIyphosate (3 000 mI/hm2), thus the damage and expansion of weedy rice wiI be effectiveIy controI ed.展开更多
The recently confirmed Hapcheon impact crater in Korea is a complex impact structure 7 km in diameter,with clear rims and impact-driven underground lacustrine sedimentary features.We investigated the lithological feat...The recently confirmed Hapcheon impact crater in Korea is a complex impact structure 7 km in diameter,with clear rims and impact-driven underground lacustrine sedimentary features.We investigated the lithological features of deposits within the impact crater using drilled sedimentary cores(23HIC01,20CR05,20CR09,and 20CR10),which consisted of an ascending order of impact breccias,lake sediments,and subaerial(e.g.,wetland)sediments.The impact breccia deposits in the 20CR05 and 23HIC01 cores contain shatter cones,which are a macroscopic indication of a meteorite impact.The overlying lake sediments were divided into three stages.The early stage of the post-impact lake environment corresponded to the lowermost lake sediments with frequent microfaults and slump-turbidite events.This stage is characterized by high calcite content of up to 13%.The middle stage showed a stable depositional environment,with silty to sandy lamination and bedding,and fewer microfaults.The final stage of the post-impact lake environment appears to have been very short and dramatic.This ended with the final slumping event,which appears to have been triggered by an abrupt outburst of lake water.This study demonstrates early post-impact lake sedimentation processes and crater instability in terms of soft-sediment deformation structures(e.g.,microfaults and slumps).展开更多
Pod shattering causes severe yield loss in rapeseed(Brassica napus L.)under modern agricultural practice.Identification of highly shatter-resistant germplasm is desirable for the development of rapeseed cultivars for ...Pod shattering causes severe yield loss in rapeseed(Brassica napus L.)under modern agricultural practice.Identification of highly shatter-resistant germplasm is desirable for the development of rapeseed cultivars for mechanical harvesting.In the present study,an elite line OR88 with strong shatter resistance and a lignified-layer bridge(LLB)structure was identified.The LLB structure was unique to OR88 and co-segregated with high pod-shatter resistance.The LLB structure is differentiated at stage 12 of gynoecium development without any gynoecium defects.Genetic analysis showed that LLB is controlled by a single recessive gene.By BSA-Seq and map-based cloning,the resistance gene location was delimited to a0.688 Mb region on chromosome C09.Transcriptome analysis suggested Bn TCP8.C09 as the gene responsible for LLB.The expression of Bn TCP.C09 was strongly downregulated in OR88,suppressing cell proliferation in the pod valve margin.KASP markers linked to the candidate gene were developed.This pod shatter-resistant line could be used in rapeseed breeding programs by direct transfer of the gene with the assistance of the DNA markers.展开更多
Pod shatter resistance of rapeseed is of great importance for modem farming practice. In order to determine the combining ability of elite inbred lines and the breeding potential of rapeseed hybrids in terms of pod sh...Pod shatter resistance of rapeseed is of great importance for modem farming practice. In order to determine the combining ability of elite inbred lines and the breeding potential of rapeseed hybrids in terms of pod shatter resistance, analysis of a 6×6 incomplete diallel cross was conducted at two locations. Results showed that a significant variation existed among breeding lines and their F1 hybrids for pod shatter resistant index (SRI), pod length and width. Pod shatter resistance was significantly positively correlated with pod length. The general combining ability (GCA) effects (GCA=l.58) played a more important role than specific combining ability (SCA) effects (SCA=0.20) for pod shatter trait. The elite lines R1, 1019B and 1055B displayed significant positive GCA effects for pod shatter resistance. Four crosses (1019B×R1, 1015B×R1, 6098B×R1, and 8908B×R1) with high mean performance and positive SCA effects were recommended for developing new hybrids for mechanical harvest in the middle reaches of the Yangtze River.展开更多
At low temperatures,gun propellant grains may become brittle and this can lead to fracture or shatter of the grains during gun firing.Should this event occur then it will result in an increase in the burning surface o...At low temperatures,gun propellant grains may become brittle and this can lead to fracture or shatter of the grains during gun firing.Should this event occur then it will result in an increase in the burning surface of the propellant and will give rise to a change in ballistic performance.Also,if the resultant over pressure is sufficient,a breech failure may result.Understanding the propensity of a grain to fracture or shatter is therefore important in determining its safety in use.This document describes a test that may be used to derive knowledge and to quantify the physical behaviour of a gun propellant grain at the low temperatures at which fracture or shatter is most likely to occur.展开更多
基金supported by the National Natural Science Foundation of China(32372118 and 32188102)the Qian Qian Academician Workstation,China+3 种基金the Specific Research Fund of the Innovation Platform for Academicians of Hainan Province,China(YSPTZX202303)the Nanfan Special Project,Chinese Academy of Agricultural Sciences(ZDXM2315)the Chinese Academy of Agricultural Sciences Talent Plan-Outstanding Young Talentthe Zhejiang Province’s High-level Talent Special Support Plan-Young Talent,China。
文摘In natural ecosystems,the timely abscission of seeds in wild plants is a crucial adaptive trait that contributes to reproductive success,population renewal,and colony expansion(Thurber et al.2010).In contrast,the tendency for high seed shattering in domesticated crops,such as rice,not only reduces paddy yield but also complicates mechanized harvesting.
基金financially supported by the earmarked funding for the China Agriculture Research System of MOF and MARA(CARS-14)the Key Project of Science and Technology of Henan Province,China(201300110600)+6 种基金the Henan Province Specific Professor Position Program,China(SPPP2022)the Zhongyuan Scientist Workshop Construction,China(ZSWC2019 and 214400510026)the Innovation Scientist and Technician Troop Construction Project of Henan Province,China(ISTTCPHP2016)the Shennong Laboratory First Class Program,China(SN01-2022-04)the Key Research and Development Project of Henan Province,China(221111520400)the Innovation Scientists and Technicians Troop Construction Project of Henan Academy of Agricultural Sciences,China(2023TD04)the Henan Province Science and Technology Research and Development Plan Joint Fund,China(232301420108)。
文摘Sesame is a labor intensive crop with limited mechanized harvesting mainly due to the seed shattering(SS)trait.In this study,we performed a genetic analysis of the seed-shattering resistance(SR)trait with a SR sesame mutant 12M07.Unlike the SS type,the parenchyma cells in the abscission zone of the 12M07 mutant are arranged loosely but adhere to the seed coat.Inheritance analysis of six generations derived from 12M07(SR)×Xiangcheng Dazibai(SS)showed that the SR trait is recessive and controlled by a single gene pair.Association mapping of the F2population with 888,619 variants(single-nucleotide polymorphisms(SNPs)and insertion-deletion(InDels))and 31,884 structural variations(SVs)determined that only SV12002 in the 5′upstream region of gene Sindi0765000(named SiHEC3)in Chr.3 was significantly associated with the SR trait.SiHEC3 encodes the bHLH transcription factor.A 1,049 bp deletion occurred in the 5′UTR of Sihec3 in 12M07.SiHEC3 is mainly expressed in developing placental tissues,with the expression peaking in capsules at 45 days after pollination.A dual-luciferase reporter assay in tobacco confirmed that the promoter activity of Sihec3 was reduced because of the deletion of the 1,049 bp promoter sequence.Protein–protein interaction network analysis showed that HEC3 is co-expressed with nine key proteins,such as SHATTERPROOF1(SHP1)and SEEDSTICK(STK)which participate in the secondary wall biosynthesis of the abscission layer in plants.The findings of this study show the important function of Sihec3corresponding with the SR trait and supply the genetic information for breeding new varieties that are amenable to mechanized harvesting in sesame and other crops.
基金Supported by Agricultural Science and Technology Stride Plan(2009-16)Natural Science Fund in Hainan(808202)Scienceand Technology Project from Chinese Academy of Tropical Agricultural Sciences(Rky09)~~
文摘Soil structure and nutrient ingredient before and after shattering and returning sugarcane leaf as well as its technologies and methods were comparatively analyzed in this study to discuss the main reasons primarily,while the controlling technologies were proposed by combining cultivation,management and technical measures.
文摘The newly developed hybrid rice combination 'Xieyou 9308' (Xieqingzao A/T9308) has been regarded as a super-high-yielding rice variety, of which the yield potential reached as high as 12 t/ha. However, its high shattering characteristic (as high as 60%) has limited its wider application. In the current experiment, a non-shattering mutant line, M9308, was developed from T9308 by gamma irradiation. Comparisons were made but no marked differences were found between T9308 and M9308 as well as between their F1 hybrids crossed to Xieqingzao A for major agronomic and grain quality characters as well as resistance to diseases. Genetic analysis indicated that the non-shattering character of M9308 was governed by a single recessive gene.
基金funded by the National Key Technology Research and Development Program of China(2014BAD11B03)the earmarked fund for the China Agricultural Research System(CARS-13)the Fundamental Research Funds for the Central Universities of China(2013PY001)
文摘Paclobutrazol was sprayed at 0, 150, and 300 mg L-1 during the closed canopy stage and the early bud stage with two high-yielding cultivars of rapeseed, Yangguang 2009 and Fengyou 520. The impact of paclobutrazol on the accumulation and distribution of biomass and its relationship with yield, resistance to lodging and pod shattering were determined. All the treatments increased the resistance as well as yield. The maximum yield was obtained when paclobutrazol was applied during the closed canopy stage at 150 mg L-1. The plant's resistance to both lodging and pod shattering was the maximum when paclobutrazol was applied during the early bud stage at 300 mg L-1. Paclobutrazol also delayed senescence, with the higher concentration or later spraying leading to more obvious effects; improved the net assimilation rate before the early bud stage; and promoted the relative growth rate of the main growth organ at each stage of growth and maximized the rate and quantities of biomass accumulation. However, at the higher concentration and later spraying, the increments were smaller. The spraying also increased the rates of biomass allocation to roots, leaves, and pods, but the rate of allocation to stems decreased as the plants grew shorter. The higher allocation to roots and the lower allocation to stems favoured resistance to both lodging and pod shattering whereas higher allocation to leaves and pods favoured yield. The higher concentration or late spraying led to excessive biomass being allocated to roots, which decreased leaf biomass during the bud stage, leading to greater resistance but lower yields.
文摘Seed shattering is a common problem in early soybean production system (ESPS) in the Midsouth, which mainly uses maturity group (MG) IV soybeans. Many studies have been conducted on the genetics of soybean shattering resistance for individual varieties;however, information on the physiology of soybean shattering pattern under specific environmental conditions, which is often critical to soybean growers, is very limited. Field experiments were conducted at Stoneville MS from 2007 to 2009 to investigate the shattering patterns of 80-132 MG IV soybean varieties each year. Results from 2007 and 2008 indicated that, when April-planted MG IV soybeans matured in mid- to late August, pods of most soybean varieties did not shatter within the first three weeks after maturity (WAM) and there was no significant shattering effect on final yields. However, differences in pod shattering among the varieties became apparent in the fourth WAM. Late-planted MG IV soybeans, which matured in early September, had a low shattering rate and could hold seeds up to 6 WAM before reaching a critical shattering point. Most soybean varieties planted in April 2009 did not show significant pod shattering by the end of the fourth WAM. The critical point of shattering was not reached until 6 - 7 WAM. Relatively lower temperatures and abundant rainfall during the late growing season in 2009 may be the main reasons causing delayed shattering in April-planted MG IV soybeans. Results from the May-planting of 2007 and the April-planting of 2009 indicated that soybeans maturing after September have much less problematic shattering. Different weather patterns, especially temperature and rainfall in each year could be essential factors affecting seed shattering patterns.
基金supported by the Research and Development Program in the Key Areas of Guangdong Province,China(2020B020220008)the China Agriculture Research System of MOF and MARA(CARS-04-PS09)+1 种基金the Guangdong Agricultural Research System,China(2020KJ136)the Research Project of the State Key Laboratory of Agricultural and Biological ResourcesProtection and Utilization in Subtropics,China。
文摘Pod shattering is an important domesticated trait which can cause great economic loss of crop yield in cultivated soybean.In this study,we utilized two recombinant inbred line populations(RILs,CY,Huachun 2×Wayao;GB,Guizao 1×B13)to identify quantitative trait loci(QTLs)associated with pod shattering in soybean across multiple environments.A total of 14 QTLs for pod shattering were identified in the two RIL populations,which had LOD scores ranging from 2.64 to 44.33 with phenotypic variance explanation(PVE)ranging from 1.33 to 50.85%.One QTL qPS16-1,located on chromosome 16,included a well-known functional gene Pod dehiscence 1(Pdh1)that was reported previously.Ten new putative QTLs were validated in two RIL populations,and their LOD scores were between 2.55 and 4.24,explaining 1.33 to 2.60%of the phenotypic variation.Of which four novel QTLs(qPS01-1,qPS03-2,qPS05-1,and qPS07-1)could be detected in two environments where nine genes had specific changes in gene expression.Although the nine genes may have significant effects on pod shattering of soybean,their detailed functions still need to be further explored in the future.The results of this study will facilitate a better understanding of the genetic basis of the pod shattering-resistant trait and benefit soybean molecular breeding for improving pod shattering resistance.
基金Jilin Province Education Department Science and Technology Research Project[JJKH20210350KJ]Jilin Province Science and Technology Guidance Program Project[20200402023NC]+1 种基金Jilin Provincial Natural Science Foundation Project[20200201027JC]Innovation and Entrepreneurship Training Program for College Students in Jilin Province[2021].
文摘Seed shattering refers to the phenomenon in which the pods split along the abdominal and back sutures before the crop is received,so that the seeds are spread.Seed shattering is vital to the reproduction of their offspring in wild plants,but it is also the main cause of crop yield loss reason.Pod-explosion resistance is a complex process of physical and physiological and biochemical reactions.Soybean seed shattering phenomenon is widespread,which severely restricts the development of soybean industry.Seed shattering(pod cracking or fruit dropping)is essential for the reproduction of its offspring in wild plants,but it is also the main cause of crop yield loss.This article analyzes the morphology and structure of pods related to seed shattering from the morphology of pods.On the basis of the regularity of the occurrence of seed shattering and the summary of phenotypic index identification methods,physiologically introduced the regulation mechanism of key enzymes and endogenous hormones on seed shattering.The localization,labeling and cloning of seed shattering genes are introduced in molecular biology.The study focused on reviewing the latest advances in the research on soybean seed shattering characteristics,and discussed with the research results of related crops.Finally,the research and application of soybean seed shattering resistance were prospected for several aspects.
基金supported by the National Key Research and Development Program of China(2018YFD1000706,2018YFD1000700).
文摘Sorghum[Sorghum bicolor(L.)Moench],a multipurpose C4 crop,is also a model species of the Poaceae family for plant research.During the process of domestication,the modification of seed dispersal mode is considered a key event,as the loss of seed shattering caused a significant increase in yield.In order to understand the seed shattering process in sorghum,we further studied eight previously identified divergent sorghum germplasm with different shattering degrees.We described their phenotypes in great detail,analyzed the histology of abscission zone,and conducted a gene co-expression analysis.We observed that the abscission layer of the most strong-shattering varieties began to differentiate before the 5-10 cm panicles development stage and was completely formed at flag leaf unfolding.The protective cells on the pedicels were also fully lignified by flowering.Through the weighted gene correlation network analysis(WGCNA),we mined for candidate genes involved in the abscission process at the heading stage.We found that these genes were mainly associated with such biological processes as hormone signal transmission(SORBI_3003G361300,SORBI_3006G216500,SORBI_3009G027800,SORBI_3007G077200),cell wall modification and degradation(SORBI_3002G205500,SORBI_3004G013800,SORBI_3010G022400,SORBI_3003G251800,SORBI_3003G254700,SORBI_3003G410800,SORBI_3009G162700,SORBI_3001G406700,SORBI_3004G042700,SORBI_3004G244600,SORBI_3001G099100),and lignin synthesis(SORBI_3004G220700,SORBI_3004G062500,SORBI_3010G214900,SORBI_3009G181800).Our study has provided candidate genes required for shedding for further study.We believe that function characterization of these genes may provide insight into our understanding of seed shattering process.
基金funded by the National Natural Science Foundation of China(31788103,31601281,and 31401367).
文摘Dear Editor,The selection of non-shattering seeds has been a primary target during crop domestication,making wild rice suitable for human cultivation.Seed shattering involves development and separation of the abscission zone(AZ).The AZ consists of several layers of thin-walled,iso-diametrically flattened cells,marking the point at which the cells of the falling organ separate from the parent plant(Sexton and Roberts,1982).Many previously identified factors that regulate seed shattering,such as SH4,qSH1,qSH3,SHAT1,SSH1,and SH5,all participate in development of the AZ in rice(Wu et al.,2023a;2023b).However,what occurs at the cellular level to enable abscission and what induces the separation of the AZ in rice remain unclear.Here,we report that the major facilitator superfamily(MFS)gene SHATTERING ABORTION3(SHAT3)functions as a novel regulator of seed shattering in rice(Oryza sativa)by facilitating jasmonic acid(JA)accumulation in the AZ and pedicel(AZ-P)region to promote AZ separation.However,the non-shattering phenotype of shat3 cannot be complemented by exogenous JA,indicating that SHAT3 has unique functions that have yet to be explored.
基金supported by the Leading Scientist Project of Qinghai Province,China(2023-NK-147)。
文摘The common vetch(Vicia sativa L.)is a self-pollinated annual forage legume that is widely distributed worldwide.It has wide adaptability and high nutritional value and is commonly used as an important protein source for livestock feed.However,pod shattering seriously limits the yield of common vetch.To clarify the mechanism of pod shattering in common vetch,the pod walls of three shattering-resistant(SR)accessions(B65,B135,and B392)and three shattering-susceptible(SS)accessions(L33,L170,and L461)were selected for transcriptome sequencing.A total of 17,190 differentially expressed genes(DEGs)were identified in the pod wall of B135 and L461 common vetch at 5,10,15,20,and 25 days after anthesis.Kyoto Encyclopedia of Genes and Genomes(KEGG)analysis showed that“phenylpropanoid biosynthesis”was the most significantly enriched pathway,and 40 structural genes associated with lignin biosynthesis were identified and differentially expressed in B135 and L461 common vetch.We analysed the DEGs in the pod wall of three SR and three SS accessions at 15 days after anthesis,and most of the DEGs were consistent with the significant enrichment pathways identified in B135 and L461 common vetch.The total lignin content of SR accessions was significantly lower than the SS accessions.The present study lays a foundation for understanding the molecular regulatory mechanism of pod shattering related to lignin biosynthesis in common vetch and provides reference functional genes for breeders to further cultivate shattering-resistant common vetch varieties.
基金the National Key Research and Development Program of China(2021YFD1201601,2021YFF1001201)the earmarked fund for CARS(CARS-04-PSO1)+2 种基金the Agricultural Science and Technology Innovation Program(ASTIP)of the Chinese Academy of Agricultural Sciencesthe National Natural Science Foundation of China(grant no.32201734)the China Postdoctoral Science Foundation(grant no.2021M693465).
文摘Pod coloration is a domestication-related trait in soybean,with modern cultivars typically displaying brown or tan pods,while their wild relative,Glycine soja,possesses black pods.However,the factors regulating this color variation remain unknown.In this study,we cloned and characterized L1,the classical locus responsible for black pods in soybean.By using map-based cloning and genetic analyses,we identified the causal gene of L1 and revealed that it encodes a hydroxymethylglutaryl-coenzyme A(CoA)lyase-like(HMGL-like)domain protein.Biochemical assays showed that L1 functions as a eucomic acid synthase and facilitates the synthesis of eucomic acid and piscidic acid,both of which contribute to coloration of pods and seed coats in soybean.Interestingly,we found that L1 plants are more prone to pod shattering under light exposure than l1 null mutants because dark pigmentation increases photothermal efficiency.Hence,pleiotropic effects of L1 on pod color and shattering,as well as seed pigmentation,likely contributed to the preference forl1 alleles during soybean domestication and improvement.Collectively,our study provides new insights into the mechanism of pod coloration and identifies a new target for future de novo domestication oflegume crops.
基金supported by Innovative Research Groups of the Natural Science Foundation of Hebei province(C2020301020).
文摘Pod shattering can lead to devastating yield loss of soybean and has been a negatively selected trait in soybean domestication and breeding.Nevertheless,a significant portion of soybean cultivars are still pod shattering-susceptible,limiting their regional and climatic adaptabilities.Here we performed genetic diagnosis on the shattering-susceptible trait of a national registered cultivar,Huachun6(HC6),and found that HC6 carries the susceptible genotype of a candidate Pod dehiscence 1(PDH1)gene,which exists in a significant portion of soybean cultivars.We next performed genome editing on PDH1 gene by clustered regularly interspaced short palindromic repeats(CRISPR)-CRISPR-associated protein 9(Cas9).In T2 progenies,several transgene-free lines with pdh1 mutations were characterized without affecting major agronomic traits.The pdh1 mutation significantly improved the pod shattering resistance which is associated with aberrant lignin distribution in inner sclerenchyma.Our work demonstrated that precision breeding by genome editing on PDH1 holds great potential for precisely improving pod shattering resistance and adaptability of soybean cultivars.
基金Supported by Jiangsu Agricultural Science and Technology Innovation Fund[CX(13)3042]~~
文摘In this study, several typical tralts of weedy rice and its damage charac-teristics were analyzed. The resuIts showed that the shattering of weedy rice was sometimes weaker than that of conventional rice. The newIy-harvested weedy rice seeds have certaln dormant period and a Iong active period, whiIe the conventional rice seeds have no dormant period but have a Iimited active period. In the direct seeding and intercropping rice fields where weedy rice occurs seriousIy Iast year, if not controI ed timeIy, weedy rice may caused a damage above 28%, sometimes even above 99%. After one season of cuItivation, the underground weedy rice and conventional rice seeds wiI be carbonized, Iosing their activity. The germination of underground weedy rice can be first induced, and when the Iast-season wheat is harvested, the germinated weedy rice can be kiI ed with 41% gIyphosate (3 000 mI/hm2), thus the damage and expansion of weedy rice wiI be effectiveIy controI ed.
基金supported by the Basic Research Project of the Korea Institute of Geoscience and Mineral Resources(GP2022-006[24-3111-3]and GP2022-005[24-3807])。
文摘The recently confirmed Hapcheon impact crater in Korea is a complex impact structure 7 km in diameter,with clear rims and impact-driven underground lacustrine sedimentary features.We investigated the lithological features of deposits within the impact crater using drilled sedimentary cores(23HIC01,20CR05,20CR09,and 20CR10),which consisted of an ascending order of impact breccias,lake sediments,and subaerial(e.g.,wetland)sediments.The impact breccia deposits in the 20CR05 and 23HIC01 cores contain shatter cones,which are a macroscopic indication of a meteorite impact.The overlying lake sediments were divided into three stages.The early stage of the post-impact lake environment corresponded to the lowermost lake sediments with frequent microfaults and slump-turbidite events.This stage is characterized by high calcite content of up to 13%.The middle stage showed a stable depositional environment,with silty to sandy lamination and bedding,and fewer microfaults.The final stage of the post-impact lake environment appears to have been very short and dramatic.This ended with the final slumping event,which appears to have been triggered by an abrupt outburst of lake water.This study demonstrates early post-impact lake sedimentation processes and crater instability in terms of soft-sediment deformation structures(e.g.,microfaults and slumps).
基金the National Natural Science Foundation of China(U19A2029)the National Key Research and Development Program of China(2018YFE0108000)+1 种基金Science and Technology Innovation Project of the Chinese Academy of Agricultural Sciences(CAAS-ZDRW202105)China Agriculture Research System of MOF and MARA。
文摘Pod shattering causes severe yield loss in rapeseed(Brassica napus L.)under modern agricultural practice.Identification of highly shatter-resistant germplasm is desirable for the development of rapeseed cultivars for mechanical harvesting.In the present study,an elite line OR88 with strong shatter resistance and a lignified-layer bridge(LLB)structure was identified.The LLB structure was unique to OR88 and co-segregated with high pod-shatter resistance.The LLB structure is differentiated at stage 12 of gynoecium development without any gynoecium defects.Genetic analysis showed that LLB is controlled by a single recessive gene.By BSA-Seq and map-based cloning,the resistance gene location was delimited to a0.688 Mb region on chromosome C09.Transcriptome analysis suggested Bn TCP8.C09 as the gene responsible for LLB.The expression of Bn TCP.C09 was strongly downregulated in OR88,suppressing cell proliferation in the pod valve margin.KASP markers linked to the candidate gene were developed.This pod shatter-resistant line could be used in rapeseed breeding programs by direct transfer of the gene with the assistance of the DNA markers.
基金supported by the National Basic Research Program of China (973 Program, 2011CB109302)the National High-Tech R&D Program of China (863 Program,2011AA10A104)the earmarked fund for China Agriculture Research System (CARS-13)
文摘Pod shatter resistance of rapeseed is of great importance for modem farming practice. In order to determine the combining ability of elite inbred lines and the breeding potential of rapeseed hybrids in terms of pod shatter resistance, analysis of a 6×6 incomplete diallel cross was conducted at two locations. Results showed that a significant variation existed among breeding lines and their F1 hybrids for pod shatter resistant index (SRI), pod length and width. Pod shatter resistance was significantly positively correlated with pod length. The general combining ability (GCA) effects (GCA=l.58) played a more important role than specific combining ability (SCA) effects (SCA=0.20) for pod shatter trait. The elite lines R1, 1019B and 1055B displayed significant positive GCA effects for pod shatter resistance. Four crosses (1019B×R1, 1015B×R1, 6098B×R1, and 8908B×R1) with high mean performance and positive SCA effects were recommended for developing new hybrids for mechanical harvest in the middle reaches of the Yangtze River.
文摘At low temperatures,gun propellant grains may become brittle and this can lead to fracture or shatter of the grains during gun firing.Should this event occur then it will result in an increase in the burning surface of the propellant and will give rise to a change in ballistic performance.Also,if the resultant over pressure is sufficient,a breech failure may result.Understanding the propensity of a grain to fracture or shatter is therefore important in determining its safety in use.This document describes a test that may be used to derive knowledge and to quantify the physical behaviour of a gun propellant grain at the low temperatures at which fracture or shatter is most likely to occur.
