Climate change impacts soil nitrogen, influencing plant responses to elevated atmospheric [CO2]. Understanding the interaction between nitrogen supply and elevated [CO2] is crucial for predicting plant future performa...Climate change impacts soil nitrogen, influencing plant responses to elevated atmospheric [CO2]. Understanding the interaction between nitrogen supply and elevated [CO2] is crucial for predicting plant future performance. This study examined the interactive effects of elevated [CO2] and nitrogen supply on the eco-physiological performance of yellow birch. Seedlings were exposed to two [CO2] levels and five nitrogen supply levels for 4 months. Growth parameters such as seedling height and root collar diameter increased with higher nitrogen supply and elevated [CO2], while specific leaf area decreased. [CO2] elevation and increasing nitrogen supply also increased the total and stem, and leaf biomass. The elevated [CO2] increased the stem mass ratio but decreased the root-to-shoot ratio and root mass ratio. However, decreases in nitrogen supply increased root mass ratio and root-to-shoot ratio. The elevated [CO2] increased the maximum rate of Rubisco carboxylation (Vcmax) and photosynthetic electron transport (Jmax), but the effect on Jmax was statistically significant only at the two highest nitrogen supply levels. The results indicate that yellow birch may increase photosynthetic capacity, biomass, and growth in the future when [CO2] is higher.展开更多
The acclimation capacity of Betula pendula and Betula pubescens was studied over 4 years in common gardens in central Italy(43°N)and southern(61°N)and northern Finland(67°N),representing drastically dif...The acclimation capacity of Betula pendula and Betula pubescens was studied over 4 years in common gardens in central Italy(43°N)and southern(61°N)and northern Finland(67°N),representing drastically different photoperiod and climate in temperate,boreal and subarctic vegetation zones.Two study sites that differed in soil fertility were established at each location,giving a total of six common gardens.The birch material was micropropagated from naturally regenerated stands of B.pendula and B.pubescens from Susa Valley and Rochemolle Valley in northern Italy,Punkaharju in southern Finland and Kittilä in northern Finland.The plants were measured for height growth,stem diameter,leaf chlorophyll content,leaf herbivory and pathogen damage.The effects of soil fertility on the common garden results were also analyzed.The results showed high acclimation capacity of B.pendula and B.pubescens after a long-range transfer from southern to northern Europe,despite the major shift in climate and photoperiod.First-year growth on average was best in boreal southern Finland for all origins.Betula pendula grew more than B.pubescens in Italy and southern Finland,while B.pubescens grew more in northern Finland and better tolerated the northward transfer.The height growth of origins showed a clear latitude gradient from slowly growing northern to fast growing southern origins in the nursery and laboratory,but not in the field.Soil fertility explained a significant part of variation among locations not only for growth variables,but also for leaf chlorophyll content and leaf herbivory and pathogen damage.Leaf herbivore and pathogen damage was greatest in southern Finland.Our results demonstrate good survival of birch from northern Italy in Finnish conditions and support the possibility of long-range south-to-north transfer of Betula species to provide resistant planting material in boreal forests for the rapidly changing climate.展开更多
As global warming persistently alters and rapidly reshapes landscapes and habitats, conventional species distribution models relying solely on maintaining static conditions within the current climate are likely to fal...As global warming persistently alters and rapidly reshapes landscapes and habitats, conventional species distribution models relying solely on maintaining static conditions within the current climate are likely to falter, particularly at the genus level. Hence, we hypothesize that climate change will differentially affect ecological niches of the same genus species with various latitudinal positioning and local topography, and the high-latitude species may experience greater niche contraction than low-latitude species, and that mountainous regions with high elevational variability may serve as critical climate refugia. Herein, we simulate niche alterations and integrate an ensemble model(EM) strategy, taking into account species dispersal limitations factors(topography, soil, and ultraviolet), to construct a comprehensive habitat suitability(CHS) model for assessing the future vulnerability of the Betula genus, most of which are timber species in China. Our findings reveal that the niche spatial(geographic distribution) of most species(62%) within the Betula genus will undergo a gradual decline under climate change, supporting our hypothesis of latitudinal differentiation in climate vulnerability. Intriguingly, the projected high-latitude niche reduction within the genus cannot be counterbalanced by the anticipated niche expansion of closely related species in low-latitude regions, even considering the evident latitudinal gradient distribution of species. Nonetheless, the niche spatial of six Betula species in southwestern China remains stable or expands under warming scenarios, strongly supporting our secondary hypothesis about topographic buffering effects, which probably means the unique topography(i.e., the largest elevation difference) of this region may serve as a sanctuary for preserving Betula genetic diversity. Our results underscore the uncertain nature of pre-existing niche systems at the genus level under climate change, emphasizing the need for diligent resource management and conservation planning for vulnerable timber species.展开更多
Glycosyltransferases(GTs)constitute a diverse family of synthetic polysaccharides with important roles in plant growth and development.This study characterized the GT14 family gene BpGT14;6 of birch(Betula platyphylla...Glycosyltransferases(GTs)constitute a diverse family of synthetic polysaccharides with important roles in plant growth and development.This study characterized the GT14 family gene BpGT14;6 of birch(Betula platyphylla Suk.).BpGT14;6 was highly expressed in the xylem and stem of birch plants.Subcellular localization analysis suggested that BpGT14;6 was located in the Golgi apparatus.RNA interference(RNAi)silencing of BpGT14;6 revealed lower lignin,hemicellulose,and pectin contents compared to wild type(WT)plants.Following treatment with abscisic acid(ABA),compared to WT plants,RNAi-BpGT14;6 plants were more sensitive to ABA,suffered more membrane lipid damage,and accumulated more reactive oxygen species.The inhibition of BpGT14;6 expression narrowed the birch xylem and thinned the cell wall,and increased the expression of multiple ABA pathway-related genes in birch under ABA treatment.Compared to WT plants,RNAi-BpGT14;6 plants showed increased tolerance to drought stress.Promoter analysis revealed that BpGT14;6 is involved in hormone regulation and adaptation to adversity.Using the 1156 bp BpGT14;6 promoter as bait,two potential transcription factors,BpWRKY1 and BpARF2,were identified through Y1H screening that may regulate its expression.EMSA confirmed that BpWRKY1 and BpARF2 can directly bind to the W-BOX and AuxRE cis-acting elements on the BpGT14;6 promoter,respectively.The collective results suggest that BpGT14;6 affects birch xylem and cell wall development by affecting lignin,hemicellulose,and pectin synthesis,and participates in birch adversity adaptation.展开更多
Glutathione-S-transferase(GST,EC2.5.1.18)multifunctional protease is important for detoxification,defense against biotic and abiotic stresses,and secondary metabolic material transport for plant growth and development...Glutathione-S-transferase(GST,EC2.5.1.18)multifunctional protease is important for detoxification,defense against biotic and abiotic stresses,and secondary metabolic material transport for plant growth and development.In this study,71 members of the BpGST family were identified from the entire Betula platyphylla Suk.genome.Most of the members encode proteins with amino acid lengths ranging from 101 to 875 and were localized to the cytoplasm by a prediction.BpGSTs can be divided into seven subfamilies,with a majority of birch U and F subfamily members according to gene structure,conserved motifs and evolutionary analysis.GST family genes showed collinearity with 22 genes in Oryza sativa L.,and three genes in Arabidopsis thaliana;promoter cis-acting elements predicted that the GST gene family is functional in growth,hormone regulation,and abiotic stress response.Most members of the F subfamily of GST(BpGSTFs)were expressed in roots,stems,leaves,and petioles,with the most expression observed in leaves.On the basis of the expression profiles of F subfamily genes(BpGSTF1 to BpGSTF13)during salt,mannitol and ABA stress,BpGSTF proteins seem to have multiple functions depending on the type of abiotic stress;for instance,BpGSTs may function at different times during abiotic stress.This study enhances understanding of the GST gene family and provides a basis for further exploration of their function in birch.展开更多
Influences of temperature, humidity, and CO2 concentration on the photosynthesis and respiration of three-year-oldBetula platyphylla was investigated. Light compensation point, saturation point and CO2 compensation po...Influences of temperature, humidity, and CO2 concentration on the photosynthesis and respiration of three-year-oldBetula platyphylla was investigated. Light compensation point, saturation point and CO2 compensation point were also determined. The results showed that the optimal temperature of photosynthesis and dark respiration was 24 °C and 30 °C, respectively, at ambient CO2. When relative humidity was 80%,Betula platyphylla could maintain strong photosynthesis. There was no significant correlation between respiration and relative humidity. The light compensation and saturation point was 25 μmol·m?2·s?1 and 1 375 μmol·m?2·s?1, respectively. The CO2 compensation point was 180 μL·L?1. The results showed thatBetula platyphylla still had potential to assimilate CO2 when CO2 concentration was above 2 400 μL·L?1.展开更多
Betulin, which is a medicinal pentacyclic triterpene, is abundant in the bark of white birch (Betula platyphlly). The bark of birch was collected at Tayuan Forest Farm of Jiagedaqi, Heilongjiang Province in September ...Betulin, which is a medicinal pentacyclic triterpene, is abundant in the bark of white birch (Betula platyphlly). The bark of birch was collected at Tayuan Forest Farm of Jiagedaqi, Heilongjiang Province in September 2000. Supercritical fluid extraction (SFE) that is a new separation technology has been used for the processing pharmaceutical and natural products. In this paper, the extraction of betulin from the bark of birch by supercritical CO2 extraction was studied. The authors investigated and analyzed a few parameters such as modifier dosage, extraction pressure and extraction temperature. The optimal extrac-tion conditions showed that the modifier dosage used for per gram bark powder was 1.5 mL, the extraction pressure was at 20 Mpa, and the extraction temperature was at 55 C. The velocity of flow of liquid CO2 was at 10 kg/h. The pressure and tem-perature in separation vessel were at 5.5 Mpa and 50 C, respectively.展开更多
The content of total sugar, sucrose, fructose and protein in the leaves of3-yr.-old Betula platyphylla was measured after the treatment by three exogenous sugar solutions(sucrose, fructose, glucose) and three high con...The content of total sugar, sucrose, fructose and protein in the leaves of3-yr.-old Betula platyphylla was measured after the treatment by three exogenous sugar solutions(sucrose, fructose, glucose) and three high concentrations of CO_2 (700, 1 400, 2 100 μL/L·L^(-1))for about a month in 1998. The results showed that spraying three exogenous sugar solutionsincreased markedly the content of sugar and protein of leaves under 700 μL·L^(-1) and 1 400μL·L^(-1) CO_2 The effect of spraying exogenous sucrose solution was the best among the threeexogenous sugars. The treatment of spraying exogenous sugar solution and 2 100 μL·L^(-1) CO_2constrained the accumulation of total sugar and protein of leaves. There was no difference inprotein content of leaves when spraying glucose and fructose solutions under 700 μL·L^(-1) and 1400 μL·L^(-1) CO_2. The treatment of 2 100 μL·L^(-1) CO_2 concentration significantly increasedthe contents of total sugar, sucrose, fructose, and protein of leaves compared with that of the 700μL·L^(-1) and 1 400 μL·L^(-1) CO_2 except the plants spraying fructose solution. There waspositive correlation between the content of sugar of leaves and CO_2 concentration when sprayingsame exogenous sugar solution.展开更多
Many researches have been carried out on the taxonomy of Betula in northeast of China, but the classification of species and subdivision of species had some divergences at all times, which led to a disorder for develo...Many researches have been carried out on the taxonomy of Betula in northeast of China, but the classification of species and subdivision of species had some divergences at all times, which led to a disorder for developing and utilizing resources of Betula. In this paper, species and subdivision of Betula were classified not only according to the wax sample of Betula but also the comprehensive taxonomy of population characters, geographical distribution, and the habitat. Theconclusion supported the Fu Pei-yuns?(1995) viewpoint of the taxonomy of Betula in the northeast of China. But B. mandshurica (Regel) Nakai should be considered as one single species, the name of B. platyphyla Suk.var phellodendroidesTung should be the synonym of B. platyphyla var platyphyla, and B. ermanii Cham.var.yingkiliensis liou et Wang should be incorporated into B. ermanii Cham. B. ovalifolia Rupr should not be regarded as a variety of B. fruticosa Pall. but as one single species.展开更多
Auxin polar transport genes PIN(PINFORMED)determine the concentration gradient of auxin in plants.To understand the relationship between the development of different tissues in Betula pendula‘Dalecartica’,BpPIN gene...Auxin polar transport genes PIN(PINFORMED)determine the concentration gradient of auxin in plants.To understand the relationship between the development of different tissues in Betula pendula‘Dalecartica’,BpPIN gene expression and indole-3-acetic acid(IAA)content were analyzed using qRT-PCR,ELISA,and GUS staining.Gene expression of BpPIN genes and IAA levels in the leaves,buds,stems,xylem,and roots of B.pendula‘Dalecartica’and B.pendula as a control were measured.BpPIN1,BpPIN5 and BpPIN6 were upregulated during development in both species,suggesting a dominant role in the development of B.pendula‘Dalecartica’leaves.Moreover,BpPIN1 gene expression was positively associated with IAA levels during leaf,vein and petiole development in B.pendula‘Dalecartica’only.The correlation coefficient of the first three leaves was 0.69(P=0.04),while that of the first three petioles was 0.85(P=0.001).In addition,GUS staining of the pro-DR5::GUS transgenic line of cultivar was correlated with the results of BpPIN1 expression.Overall,these findings suggest that BpPIN1 is associated with the formation of lobed leaves in B.pendula‘Dalecartica’.展开更多
[Objective] This study aimed to analyze the bioinformatics information of Betula phatyphylla metallothionein for subsequent investigation of the important func- tions of metallothionein gene. [Method] The physical and...[Objective] This study aimed to analyze the bioinformatics information of Betula phatyphylla metallothionein for subsequent investigation of the important func- tions of metallothionein gene. [Method] The physical and chemical properties, trans- membrane domains, hydrophobicity / hydrophilicity, secondary structure, functional domains and functional classification of B. phatyphylla metallothionein were analyzed and predicted using bioinformatics methods and tools. [Result] The relative molecular mass of B. phatyphylla metallothionein is 7.75 kD and isoelectric point is 5.66; there is a strong hydrophobic region in the center of B. phatyphylla metallothionein and hydrophilic regions in both ends; B. phatyphylla metallothionein may be a non-trans- membrane protein and is mainly constituted by random coil without enzymatic activi- ty, suggesting that it belongs to Metallothio_2 protein family. [Conclusion] This study provided reference for further functional research of B. phatyphylla metallothionein gene.展开更多
Betula platyphylla and Betula costata are important species in mixed broadleaved-Korean pine(Pinus koraiensis)forests.However,the specific ways in which their growth is affected by warm temperatures and drought remain...Betula platyphylla and Betula costata are important species in mixed broadleaved-Korean pine(Pinus koraiensis)forests.However,the specific ways in which their growth is affected by warm temperatures and drought remain unclear.To address this issue,60 and 62 tree-ring cores of B.platyphylla and B.costata were collected in Yichun,China.Using dendrochronological methods,the response and adaptation of these species to climate change were examined.A“hysteresis effect”was found in the rings of both species,linked to May–September moisture conditions of the previous year.Radial growth of B.costata was positively correlated with the standardized precipitation-evapotranspiration index(SPEI),the precipitation from September to October of the previous year,and the relative humidity in October of the previous year.Growth of B.costata is primarily restricted by moisture conditions from September to October.In contrast,B.platyphylla growth is mainly limited by minimum temperatures in May–June of both the previous and current years.After droughts,B.platyphylla had a faster recovery rate compared to B.costata.In the context of rising temperatures since 1980,the correlation between B.platyphylla growth and monthly SPEI became positive and strengthened over time,while the growth of B.costata showed no conspicuous change.Our findings suggest that the growth of B.platyphylla is already affected by warming temperatures,whereas B.costata may become limited if warming continues or intensifies.Climate change could disrupt the succession of these species,possibly accelerating the succession of pioneer species.The results of this research are of great significance for understanding how the growth changes of birch species under warming and drying conditions,and contribute to understanding the structural adaptation of mixed broadleaved-Korean pine(Pinus koraiensis)forests under climate change.展开更多
Simple sequence repeats(SSRs) defined as sequence repeat units between 1 and 6 bp occur abundantly in both coding and non-coding regions in eukaryotic genomes and these repeats can affect gene expression. In this st...Simple sequence repeats(SSRs) defined as sequence repeat units between 1 and 6 bp occur abundantly in both coding and non-coding regions in eukaryotic genomes and these repeats can affect gene expression. In this study, ESTs(expressed sequence tags) of Betula pendula(silver birch) were analyzed for in silico mining of ESTSSRs, protein annotation, open reading frames(ORFs),designing primers, and identifying codon repetitions. In B.pendula, the frequency of ESTs containing SSRs was 7.8 %with an average of 1SSR/4. 78 kb of EST sequences. A total of 188 SSRs was identified by using MISA software and dinucleotide SSR motifs(65.9 %) were found to be the most abundant type of repeat motif followed by tri-(27.1 %),tetra-(4.8 %), and penta-(2.2 %) motifs. Based on ORF analysis, 175 of 178 sequences were predicted as ORFs and the most frequent SSRs were detected in 50 UTR(58.43 %),followed by in ORF(31.46 %) and in 30UTR(8.43 %). 102 of 178 ESTs were annotated as ribosomal protein, transport protein, membrane protein, carrier protein, binding protein,and transferase protein. For a total of 102 SSRs(57.3 %)with significant matches, a set of 102 primers(100 %) with forward and reverse strands was designed by using Primer 3 software. Serine(Ser, 19.6 %) was predominant in putative encoded amino acids and most of amino acids showed nonpolar(35.3 %) nature. Our data provide resources for B.pendula and can be useful for in silico comparative analyses of Betulaceae species, including SSR mining.展开更多
随着古气候和古环境研究的日渐深入,"特有种气候分析法"成为新生代定量重建古气候研究的重要方法之一。使用这一方法分析了浙江东部天台中新统下南山组的古亮叶桦(Betula mi-oluminifera Hu et Chaney)压型化石,研究了其叶结...随着古气候和古环境研究的日渐深入,"特有种气候分析法"成为新生代定量重建古气候研究的重要方法之一。使用这一方法分析了浙江东部天台中新统下南山组的古亮叶桦(Betula mi-oluminifera Hu et Chaney)压型化石,研究了其叶结构特征及表皮微细构造,定量推论浙江天台中新世时年平均温度为12.5~22.1℃,春季平均温度为13.0~23.1℃,较现在温暖。我国内蒙、吉林、山东、云南等地的新近系发现过古亮叶桦,分布的北界为42°N。其现存最近亲缘种亮叶桦(Betula luminifera)生活在101~119°E,23~34°N之间,海拔500~1800m的山区,是我国特有树种。亮叶桦分布范围的缩小显示中新世一段时期我国气候逐渐变冷的趋势。展开更多
Betula alnoides is a fast-growing hardwood species grown in large plantations in Southeast Asia and South China.Nitrogen requirements for producing robus seedlings,growth and nutrient dynamics were investigated using ...Betula alnoides is a fast-growing hardwood species grown in large plantations in Southeast Asia and South China.Nitrogen requirements for producing robus seedlings,growth and nutrient dynamics were investigated using exponential fertilization treatments.Root collar diameter,height,dry mass and nutrient contents of seedlings increased exponentially in all fertilization treatments as time progressed.Moreover,with water soluble fertilizer(Plant Products plus microelements N–P2O5–K2O:20–20–20),300 mg N seedling-1was adequate.Vector analysis revealed that P was the most responsive nutrient element followed by N and K.Dilutions of N and K were evident in the plants without N addition,which induced initial P sufficiency and then luxury consumption probably due to the antagonistic interaction between N and P.However deficiencies of N,P and K were mostly observed in al exponential regimes during the experiment because seedling growth rate exceeded nutrient uptake rate,inferring that further study on improving the nutrient uptake efficiency is needed.Analysis of relationships among nutrient supply,dry mass,N content and N concentration demonstrated that 100–400 mg N seedling-1induced sufficiency to luxury consumption of nitrogen without significant change in dry mass,and 400 mg N seedling-1is recommended to apply for nutrient loading of seedlings before outplanting.The findings will help improve seedling quality and enhance the production of robust seedlings for plantation forestry of this species.展开更多
Estimating genetic parameters of parental lines through progeny testing and choosing good hybrid parents are important for genetically improving seed orchard trees.In this study, 24 tetraploid progeny seedlings were u...Estimating genetic parameters of parental lines through progeny testing and choosing good hybrid parents are important for genetically improving seed orchard trees.In this study, 24 tetraploid progeny seedlings were used as experimental materials, which came from test cross design:six tetraploid Betula platyphylla lines(Q33, Q13, Q103,Q19, Q83 and Q14) as female parents and four individual B. platyphylla diploid lines(F3, F4, F9 and F11) as male parents were crossed. Variance analysis of height, diameter, height-to-diameter ratio, and internodal distance showed that the differences between hybrid combinations reached highly significant levels. Using multi-objective decisionmaking, we performed a comprehensive assessment of the various hybrid combinations. Using a selection rate of 20 % of the standard, five hybrids were selected;their genetic gains in average height, diameter, height-todiameter ratio, and internodal distance were 20.95, 6.07,13.07 and 8.96 %, respectively. We also analyzed the combining ability and genetic parameter effect values of parents and hybrid combinations. The combined analysis revealed that Q13, Q103, Q33 and Q83 were superior females; F3, F4, and F9 were superior males; and F3 × Q13, F4 × Q83 and F9 × Q33 were superior hybrid combinations. The heights and diameters of these progenies were 22.49 and 11.48 % greater than average,respectively.展开更多
文摘Climate change impacts soil nitrogen, influencing plant responses to elevated atmospheric [CO2]. Understanding the interaction between nitrogen supply and elevated [CO2] is crucial for predicting plant future performance. This study examined the interactive effects of elevated [CO2] and nitrogen supply on the eco-physiological performance of yellow birch. Seedlings were exposed to two [CO2] levels and five nitrogen supply levels for 4 months. Growth parameters such as seedling height and root collar diameter increased with higher nitrogen supply and elevated [CO2], while specific leaf area decreased. [CO2] elevation and increasing nitrogen supply also increased the total and stem, and leaf biomass. The elevated [CO2] increased the stem mass ratio but decreased the root-to-shoot ratio and root mass ratio. However, decreases in nitrogen supply increased root mass ratio and root-to-shoot ratio. The elevated [CO2] increased the maximum rate of Rubisco carboxylation (Vcmax) and photosynthetic electron transport (Jmax), but the effect on Jmax was statistically significant only at the two highest nitrogen supply levels. The results indicate that yellow birch may increase photosynthetic capacity, biomass, and growth in the future when [CO2] is higher.
基金supported by Academy of Finland(project 284931)the Finnish Cultural Foundation/Eva Barbara WilhelminaFoundation(Decision 27.2.2021).
文摘The acclimation capacity of Betula pendula and Betula pubescens was studied over 4 years in common gardens in central Italy(43°N)and southern(61°N)and northern Finland(67°N),representing drastically different photoperiod and climate in temperate,boreal and subarctic vegetation zones.Two study sites that differed in soil fertility were established at each location,giving a total of six common gardens.The birch material was micropropagated from naturally regenerated stands of B.pendula and B.pubescens from Susa Valley and Rochemolle Valley in northern Italy,Punkaharju in southern Finland and Kittilä in northern Finland.The plants were measured for height growth,stem diameter,leaf chlorophyll content,leaf herbivory and pathogen damage.The effects of soil fertility on the common garden results were also analyzed.The results showed high acclimation capacity of B.pendula and B.pubescens after a long-range transfer from southern to northern Europe,despite the major shift in climate and photoperiod.First-year growth on average was best in boreal southern Finland for all origins.Betula pendula grew more than B.pubescens in Italy and southern Finland,while B.pubescens grew more in northern Finland and better tolerated the northward transfer.The height growth of origins showed a clear latitude gradient from slowly growing northern to fast growing southern origins in the nursery and laboratory,but not in the field.Soil fertility explained a significant part of variation among locations not only for growth variables,but also for leaf chlorophyll content and leaf herbivory and pathogen damage.Leaf herbivore and pathogen damage was greatest in southern Finland.Our results demonstrate good survival of birch from northern Italy in Finnish conditions and support the possibility of long-range south-to-north transfer of Betula species to provide resistant planting material in boreal forests for the rapidly changing climate.
基金funded by the National Science Foundation for Young Scientists of China(No.32001327)the National Key Research and Development Program of China(No.2021YFD2200304-2).
文摘As global warming persistently alters and rapidly reshapes landscapes and habitats, conventional species distribution models relying solely on maintaining static conditions within the current climate are likely to falter, particularly at the genus level. Hence, we hypothesize that climate change will differentially affect ecological niches of the same genus species with various latitudinal positioning and local topography, and the high-latitude species may experience greater niche contraction than low-latitude species, and that mountainous regions with high elevational variability may serve as critical climate refugia. Herein, we simulate niche alterations and integrate an ensemble model(EM) strategy, taking into account species dispersal limitations factors(topography, soil, and ultraviolet), to construct a comprehensive habitat suitability(CHS) model for assessing the future vulnerability of the Betula genus, most of which are timber species in China. Our findings reveal that the niche spatial(geographic distribution) of most species(62%) within the Betula genus will undergo a gradual decline under climate change, supporting our hypothesis of latitudinal differentiation in climate vulnerability. Intriguingly, the projected high-latitude niche reduction within the genus cannot be counterbalanced by the anticipated niche expansion of closely related species in low-latitude regions, even considering the evident latitudinal gradient distribution of species. Nonetheless, the niche spatial of six Betula species in southwestern China remains stable or expands under warming scenarios, strongly supporting our secondary hypothesis about topographic buffering effects, which probably means the unique topography(i.e., the largest elevation difference) of this region may serve as a sanctuary for preserving Betula genetic diversity. Our results underscore the uncertain nature of pre-existing niche systems at the genus level under climate change, emphasizing the need for diligent resource management and conservation planning for vulnerable timber species.
基金financially supported by the National Natural Science Foundation of China(Grant Nos.31870588 and 31200463)The Innovation Project of State Key Laboratory of Tree Genetics and Breeding(Northeast Forestry University)(Grant No.2022A03)Heilongjiang Touyan Innovation Team Program.
文摘Glycosyltransferases(GTs)constitute a diverse family of synthetic polysaccharides with important roles in plant growth and development.This study characterized the GT14 family gene BpGT14;6 of birch(Betula platyphylla Suk.).BpGT14;6 was highly expressed in the xylem and stem of birch plants.Subcellular localization analysis suggested that BpGT14;6 was located in the Golgi apparatus.RNA interference(RNAi)silencing of BpGT14;6 revealed lower lignin,hemicellulose,and pectin contents compared to wild type(WT)plants.Following treatment with abscisic acid(ABA),compared to WT plants,RNAi-BpGT14;6 plants were more sensitive to ABA,suffered more membrane lipid damage,and accumulated more reactive oxygen species.The inhibition of BpGT14;6 expression narrowed the birch xylem and thinned the cell wall,and increased the expression of multiple ABA pathway-related genes in birch under ABA treatment.Compared to WT plants,RNAi-BpGT14;6 plants showed increased tolerance to drought stress.Promoter analysis revealed that BpGT14;6 is involved in hormone regulation and adaptation to adversity.Using the 1156 bp BpGT14;6 promoter as bait,two potential transcription factors,BpWRKY1 and BpARF2,were identified through Y1H screening that may regulate its expression.EMSA confirmed that BpWRKY1 and BpARF2 can directly bind to the W-BOX and AuxRE cis-acting elements on the BpGT14;6 promoter,respectively.The collective results suggest that BpGT14;6 affects birch xylem and cell wall development by affecting lignin,hemicellulose,and pectin synthesis,and participates in birch adversity adaptation.
基金supported by the National Key Research and Development Program of China(No.2021YFD2200304)FundamentalResearch Funds for the Central Universities(2572022DQ08)the National Natural Science Foundation of China(No32171738).
文摘Glutathione-S-transferase(GST,EC2.5.1.18)multifunctional protease is important for detoxification,defense against biotic and abiotic stresses,and secondary metabolic material transport for plant growth and development.In this study,71 members of the BpGST family were identified from the entire Betula platyphylla Suk.genome.Most of the members encode proteins with amino acid lengths ranging from 101 to 875 and were localized to the cytoplasm by a prediction.BpGSTs can be divided into seven subfamilies,with a majority of birch U and F subfamily members according to gene structure,conserved motifs and evolutionary analysis.GST family genes showed collinearity with 22 genes in Oryza sativa L.,and three genes in Arabidopsis thaliana;promoter cis-acting elements predicted that the GST gene family is functional in growth,hormone regulation,and abiotic stress response.Most members of the F subfamily of GST(BpGSTFs)were expressed in roots,stems,leaves,and petioles,with the most expression observed in leaves.On the basis of the expression profiles of F subfamily genes(BpGSTF1 to BpGSTF13)during salt,mannitol and ABA stress,BpGSTF proteins seem to have multiple functions depending on the type of abiotic stress;for instance,BpGSTs may function at different times during abiotic stress.This study enhances understanding of the GST gene family and provides a basis for further exploration of their function in birch.
基金This paper was supported by the National Natural Science Foundation of China (No. 39970627) and the Key Project of State Department of Science Technology (2002BA515B05).
文摘Influences of temperature, humidity, and CO2 concentration on the photosynthesis and respiration of three-year-oldBetula platyphylla was investigated. Light compensation point, saturation point and CO2 compensation point were also determined. The results showed that the optimal temperature of photosynthesis and dark respiration was 24 °C and 30 °C, respectively, at ambient CO2. When relative humidity was 80%,Betula platyphylla could maintain strong photosynthesis. There was no significant correlation between respiration and relative humidity. The light compensation and saturation point was 25 μmol·m?2·s?1 and 1 375 μmol·m?2·s?1, respectively. The CO2 compensation point was 180 μL·L?1. The results showed thatBetula platyphylla still had potential to assimilate CO2 when CO2 concentration was above 2 400 μL·L?1.
文摘Betulin, which is a medicinal pentacyclic triterpene, is abundant in the bark of white birch (Betula platyphlly). The bark of birch was collected at Tayuan Forest Farm of Jiagedaqi, Heilongjiang Province in September 2000. Supercritical fluid extraction (SFE) that is a new separation technology has been used for the processing pharmaceutical and natural products. In this paper, the extraction of betulin from the bark of birch by supercritical CO2 extraction was studied. The authors investigated and analyzed a few parameters such as modifier dosage, extraction pressure and extraction temperature. The optimal extrac-tion conditions showed that the modifier dosage used for per gram bark powder was 1.5 mL, the extraction pressure was at 20 Mpa, and the extraction temperature was at 55 C. The velocity of flow of liquid CO2 was at 10 kg/h. The pressure and tem-perature in separation vessel were at 5.5 Mpa and 50 C, respectively.
基金This paper was supported by the National Natural Science Foundation of China (No. 39970627) and the Key Project of State Department of Science Technology (2002BA515B05).
文摘The content of total sugar, sucrose, fructose and protein in the leaves of3-yr.-old Betula platyphylla was measured after the treatment by three exogenous sugar solutions(sucrose, fructose, glucose) and three high concentrations of CO_2 (700, 1 400, 2 100 μL/L·L^(-1))for about a month in 1998. The results showed that spraying three exogenous sugar solutionsincreased markedly the content of sugar and protein of leaves under 700 μL·L^(-1) and 1 400μL·L^(-1) CO_2 The effect of spraying exogenous sucrose solution was the best among the threeexogenous sugars. The treatment of spraying exogenous sugar solution and 2 100 μL·L^(-1) CO_2constrained the accumulation of total sugar and protein of leaves. There was no difference inprotein content of leaves when spraying glucose and fructose solutions under 700 μL·L^(-1) and 1400 μL·L^(-1) CO_2. The treatment of 2 100 μL·L^(-1) CO_2 concentration significantly increasedthe contents of total sugar, sucrose, fructose, and protein of leaves compared with that of the 700μL·L^(-1) and 1 400 μL·L^(-1) CO_2 except the plants spraying fructose solution. There waspositive correlation between the content of sugar of leaves and CO_2 concentration when sprayingsame exogenous sugar solution.
文摘Many researches have been carried out on the taxonomy of Betula in northeast of China, but the classification of species and subdivision of species had some divergences at all times, which led to a disorder for developing and utilizing resources of Betula. In this paper, species and subdivision of Betula were classified not only according to the wax sample of Betula but also the comprehensive taxonomy of population characters, geographical distribution, and the habitat. Theconclusion supported the Fu Pei-yuns?(1995) viewpoint of the taxonomy of Betula in the northeast of China. But B. mandshurica (Regel) Nakai should be considered as one single species, the name of B. platyphyla Suk.var phellodendroidesTung should be the synonym of B. platyphyla var platyphyla, and B. ermanii Cham.var.yingkiliensis liou et Wang should be incorporated into B. ermanii Cham. B. ovalifolia Rupr should not be regarded as a variety of B. fruticosa Pall. but as one single species.
基金supported by the National Natural Science Foundation of China(NSFCGrant No.31670673)the 111 Project of China(Grant No.B16010)
文摘Auxin polar transport genes PIN(PINFORMED)determine the concentration gradient of auxin in plants.To understand the relationship between the development of different tissues in Betula pendula‘Dalecartica’,BpPIN gene expression and indole-3-acetic acid(IAA)content were analyzed using qRT-PCR,ELISA,and GUS staining.Gene expression of BpPIN genes and IAA levels in the leaves,buds,stems,xylem,and roots of B.pendula‘Dalecartica’and B.pendula as a control were measured.BpPIN1,BpPIN5 and BpPIN6 were upregulated during development in both species,suggesting a dominant role in the development of B.pendula‘Dalecartica’leaves.Moreover,BpPIN1 gene expression was positively associated with IAA levels during leaf,vein and petiole development in B.pendula‘Dalecartica’only.The correlation coefficient of the first three leaves was 0.69(P=0.04),while that of the first three petioles was 0.85(P=0.001).In addition,GUS staining of the pro-DR5::GUS transgenic line of cultivar was correlated with the results of BpPIN1 expression.Overall,these findings suggest that BpPIN1 is associated with the formation of lobed leaves in B.pendula‘Dalecartica’.
基金Supported by Youth Academic Backbone Project of Mudanjiang Normal College(G201210)~~
文摘[Objective] This study aimed to analyze the bioinformatics information of Betula phatyphylla metallothionein for subsequent investigation of the important func- tions of metallothionein gene. [Method] The physical and chemical properties, trans- membrane domains, hydrophobicity / hydrophilicity, secondary structure, functional domains and functional classification of B. phatyphylla metallothionein were analyzed and predicted using bioinformatics methods and tools. [Result] The relative molecular mass of B. phatyphylla metallothionein is 7.75 kD and isoelectric point is 5.66; there is a strong hydrophobic region in the center of B. phatyphylla metallothionein and hydrophilic regions in both ends; B. phatyphylla metallothionein may be a non-trans- membrane protein and is mainly constituted by random coil without enzymatic activi- ty, suggesting that it belongs to Metallothio_2 protein family. [Conclusion] This study provided reference for further functional research of B. phatyphylla metallothionein gene.
基金the Key Project of the China National Key Research and Development Program(2021YFD2200401)the National Natural Science Foundation of China(42177421 and 41877426)。
文摘Betula platyphylla and Betula costata are important species in mixed broadleaved-Korean pine(Pinus koraiensis)forests.However,the specific ways in which their growth is affected by warm temperatures and drought remain unclear.To address this issue,60 and 62 tree-ring cores of B.platyphylla and B.costata were collected in Yichun,China.Using dendrochronological methods,the response and adaptation of these species to climate change were examined.A“hysteresis effect”was found in the rings of both species,linked to May–September moisture conditions of the previous year.Radial growth of B.costata was positively correlated with the standardized precipitation-evapotranspiration index(SPEI),the precipitation from September to October of the previous year,and the relative humidity in October of the previous year.Growth of B.costata is primarily restricted by moisture conditions from September to October.In contrast,B.platyphylla growth is mainly limited by minimum temperatures in May–June of both the previous and current years.After droughts,B.platyphylla had a faster recovery rate compared to B.costata.In the context of rising temperatures since 1980,the correlation between B.platyphylla growth and monthly SPEI became positive and strengthened over time,while the growth of B.costata showed no conspicuous change.Our findings suggest that the growth of B.platyphylla is already affected by warming temperatures,whereas B.costata may become limited if warming continues or intensifies.Climate change could disrupt the succession of these species,possibly accelerating the succession of pioneer species.The results of this research are of great significance for understanding how the growth changes of birch species under warming and drying conditions,and contribute to understanding the structural adaptation of mixed broadleaved-Korean pine(Pinus koraiensis)forests under climate change.
文摘Simple sequence repeats(SSRs) defined as sequence repeat units between 1 and 6 bp occur abundantly in both coding and non-coding regions in eukaryotic genomes and these repeats can affect gene expression. In this study, ESTs(expressed sequence tags) of Betula pendula(silver birch) were analyzed for in silico mining of ESTSSRs, protein annotation, open reading frames(ORFs),designing primers, and identifying codon repetitions. In B.pendula, the frequency of ESTs containing SSRs was 7.8 %with an average of 1SSR/4. 78 kb of EST sequences. A total of 188 SSRs was identified by using MISA software and dinucleotide SSR motifs(65.9 %) were found to be the most abundant type of repeat motif followed by tri-(27.1 %),tetra-(4.8 %), and penta-(2.2 %) motifs. Based on ORF analysis, 175 of 178 sequences were predicted as ORFs and the most frequent SSRs were detected in 50 UTR(58.43 %),followed by in ORF(31.46 %) and in 30UTR(8.43 %). 102 of 178 ESTs were annotated as ribosomal protein, transport protein, membrane protein, carrier protein, binding protein,and transferase protein. For a total of 102 SSRs(57.3 %)with significant matches, a set of 102 primers(100 %) with forward and reverse strands was designed by using Primer 3 software. Serine(Ser, 19.6 %) was predominant in putative encoded amino acids and most of amino acids showed nonpolar(35.3 %) nature. Our data provide resources for B.pendula and can be useful for in silico comparative analyses of Betulaceae species, including SSR mining.
文摘随着古气候和古环境研究的日渐深入,"特有种气候分析法"成为新生代定量重建古气候研究的重要方法之一。使用这一方法分析了浙江东部天台中新统下南山组的古亮叶桦(Betula mi-oluminifera Hu et Chaney)压型化石,研究了其叶结构特征及表皮微细构造,定量推论浙江天台中新世时年平均温度为12.5~22.1℃,春季平均温度为13.0~23.1℃,较现在温暖。我国内蒙、吉林、山东、云南等地的新近系发现过古亮叶桦,分布的北界为42°N。其现存最近亲缘种亮叶桦(Betula luminifera)生活在101~119°E,23~34°N之间,海拔500~1800m的山区,是我国特有树种。亮叶桦分布范围的缩小显示中新世一段时期我国气候逐渐变冷的趋势。
基金financially supported by The Ministry of Science and Technology,China(2012BAD21B0102)
文摘Betula alnoides is a fast-growing hardwood species grown in large plantations in Southeast Asia and South China.Nitrogen requirements for producing robus seedlings,growth and nutrient dynamics were investigated using exponential fertilization treatments.Root collar diameter,height,dry mass and nutrient contents of seedlings increased exponentially in all fertilization treatments as time progressed.Moreover,with water soluble fertilizer(Plant Products plus microelements N–P2O5–K2O:20–20–20),300 mg N seedling-1was adequate.Vector analysis revealed that P was the most responsive nutrient element followed by N and K.Dilutions of N and K were evident in the plants without N addition,which induced initial P sufficiency and then luxury consumption probably due to the antagonistic interaction between N and P.However deficiencies of N,P and K were mostly observed in al exponential regimes during the experiment because seedling growth rate exceeded nutrient uptake rate,inferring that further study on improving the nutrient uptake efficiency is needed.Analysis of relationships among nutrient supply,dry mass,N content and N concentration demonstrated that 100–400 mg N seedling-1induced sufficiency to luxury consumption of nitrogen without significant change in dry mass,and 400 mg N seedling-1is recommended to apply for nutrient loading of seedlings before outplanting.The findings will help improve seedling quality and enhance the production of robust seedlings for plantation forestry of this species.
基金supported by National Science and Technology Supporting Topics of China(2012BAD01B05)
文摘Estimating genetic parameters of parental lines through progeny testing and choosing good hybrid parents are important for genetically improving seed orchard trees.In this study, 24 tetraploid progeny seedlings were used as experimental materials, which came from test cross design:six tetraploid Betula platyphylla lines(Q33, Q13, Q103,Q19, Q83 and Q14) as female parents and four individual B. platyphylla diploid lines(F3, F4, F9 and F11) as male parents were crossed. Variance analysis of height, diameter, height-to-diameter ratio, and internodal distance showed that the differences between hybrid combinations reached highly significant levels. Using multi-objective decisionmaking, we performed a comprehensive assessment of the various hybrid combinations. Using a selection rate of 20 % of the standard, five hybrids were selected;their genetic gains in average height, diameter, height-todiameter ratio, and internodal distance were 20.95, 6.07,13.07 and 8.96 %, respectively. We also analyzed the combining ability and genetic parameter effect values of parents and hybrid combinations. The combined analysis revealed that Q13, Q103, Q33 and Q83 were superior females; F3, F4, and F9 were superior males; and F3 × Q13, F4 × Q83 and F9 × Q33 were superior hybrid combinations. The heights and diameters of these progenies were 22.49 and 11.48 % greater than average,respectively.
