枣树(Zizyphus jujuba Mill.)叶片内氮素贮藏和循环利用的研究

金丝小枣秋季叶施^(15)N-尿素后,研究了氮素在其体内的贮藏部位、形态及循环利用情况。结果表明,幼树秋季叶弛的^(15)N可以输送到树体的各器官,地上部和根系在贮藏氮素上有同等重要的作用,根系可以利用来自叶片的氮供其生长。枣树春季生长先利用地上部贮藏的氮,而叶片回流的氮则优先用于梢、叶、花的形成。成年树分配到花的氮的比例较幼树大。秋季在成年树枣股叶片施用^(15)N-尿素,次年该枣股中的`(15)N量高于其上、下邻近枣股,表现局部贮藏局部优先利用的特点。氮素有较长时期重复利用的效应,重复利用的氮主要来自叶片。

Effects of IBA on the rooting of branch cuttings of Chinese jujube (Zizyphus jujuba Mill.) and changes to nutrients and endogenous hormones

‘Zhongqiusucui’ jujube secondary shoots were treated with 3-indolebutyric acid(IBA) at three concentrations, 500, 1000 and 1500 mg/L. Results show that IBA could significantly enhance rooting and root characteristics of cuttings and were best with IBA at 1500 mg/L. In the rooting process, the formation of adventitious roots was related to the consumption and accumulation of nutrients(soluble sugars and proteins) and the changes in endogenous hormones in phloem, leaf tips and leaf bases. The rooting of cuttings had a positive correlation with the consumption of soluble sugars during the period of callus formation and with the accumulation of soluble sugars during adventitious root formation and growth. Rooting was positively related to the breakdown of soluble proteins in the phloem when the callus formed, and had a positive correlation with its accumulation during adventitious root formation and growth. Leaf tips and leaf bases showed a reverse trend in changes of soluble protein. However, together with the phloem, leaf tips and leaf bases regulated and controlled the formation and development of adventitious roots. The main activities of soluble proteins exist in the leaf tips as this was the main source of soluble proteins. The relation between rooting and IAA(indole-3-acetic acid) content in phloem was positive and thus a high concentration of IAA could benefit the induction and formation of adventitious roots. However, rooting was negatively related with ABA(abscisic acid) and GA(gibberellic acid) and a high concentration of both could inhibit the induction and formation of adventitious roots. Rooting had a positive correlation with phloem IAA/ABA ratios, and higher ratios could improve rooting. Low concentrations of ZR(zeatin riboside) triggered the induction of adventitious roots, while higher concentrations promoted root growth.Endogenous hormones in leaf tips and bases had an impact on rooting. The activities of endogenous hormones mainly existed in leaf tips because they play a major role in the production and consumption of IAA and its ABA content increased during rooting. The ZR in leaf tips influenced the rooting of cuttings, especially in the callus formation and rooting stage. Leaf tips were the main source of GA.

酸枣 (Zizyphus jujuba Mill)组织培养结合^(60)Co- γ射线辐照诱发突变株(英文)

建立了酸枣离体组织培养结合 6 0 Co γ射线辐照获得突变株的技术。 (1)酸枣叶片外植体在含有ZEA 1mg L ,2 ,4 D 0 .5mg L和NAA0 .5mg L的MS培养基上诱导愈伤组织 :经 6 0 Co γ射线辐照后在含有ZEA 1mg L和NAA0 .5 mg L的MS培养基上诱导幼苗 ;(2 )试管苗用 2 0～ 30Gy6 0 Co γ射线辐照后 ,在BAP 2mg L和IBA 0 .4mg L的MS培养基上进行不定苗繁殖。 (3)不定苗在含有IBA 1mg L和IAA0 .4mg L的MS培养基上生根。此外 ,用 2 0 0～ 4 5 0Gy6 0 Co γ射线辐照种仁 ,也能获得突变株。

Study on the mechanism of Euphorbia fischeriana Steud.- Jujubae Fructus in the treatment of hepatocirrhosis based on network pharmacology

The active components,targets,and pathways of Euphorbia fischeriana Steud.-Jujubae Fructus in treating hepatocirrhosis and the mechanism of action were explored by means of network pharmacology.Firstly,the active components and related targets of Jujubae Fructus were screened by TCMSP database and standardized by Uniprot database.The compounds of Euphorbia fischeriana Steud.were obtained by searching the literature and finally screened by PubChem database,Swiss ADME,and SwissTargetPrediction.Hepatocirrhosis targets were obtained through Genecards database,PPI network analysis was conducted on common targets of Euphorbia fischeriana Steud.-Jujubae Fructus and hepatocirrhosis by using String database,GO enrichment analysis and KEGG pathway enrichment analysis was conducted through Metascape database by using intersection targets of Euphorbia fischeriana Steud.-Jujubae Fructus and hepatocirrhosis,and the results were drawn by using Weishengxin online drawing platform.Then,the network of drug-compound-target-pathway was constructed by the software of Cytoscape3.8.0.Finally,the above results were verified by molecular docking.47 active compounds from Euphorbia fischeriana Steud.-Jujubae Fructus were screened out,which had 38 common targets,162 intersection targets,and 340 signal pathways with hepatocirrhosis,mainly involving hepatitis C,JAK-STAT signal pathway and AGE-RAGE signal pathway.Targets,such as MAPK1,AKT1,TNF,JUN,IL6 and PTGS2,play important roles in the treatment.The findings suggested that the main active ingredients of Euphorbia fischeriana Steud.-Jujubae Fructus in treating hepatocirrhosis are quercetin,scopolamine,physcion,7-deoxyrangduin,17-Hydroxyjolkinolide A,etc.Molecular docking results showed that the main active components and core targets might have a good binding capacity.This study preliminarily explored the potential mechanism of Euphorbia fischeriana Steud.-Jujubae Fructus in treating hepatocirrhosis and provided a theoretical basis for the clinical application of Euphorbia fischeriana Steud.-Jujubae Fructus.

枣(Ziziphus jujuba Mill.)品种结实特性研究

对河北省沧县枣种质资源圃124个和山西果树研究所国家枣种质资源圃156个枣品种(品系)在自花授粉和自然授粉条件下的结实及种仁发育情况进行了调查。结果表明,供试品种自然授粉和自花授粉条件下的平均结实率(结果数/100枣吊)分别为37.06%、20.63%,变幅分别为4.17%～175.00%、0%～163.64%,平均可育率(含仁果实/果实总数×100%)分别为12.10%、3.07%,变幅均为0%～100%;自花结实率和自然结实率极显著正相关,相关系数0.597;供试枣品种可分成自花不实异花可实不育、自花不实异花可育、自花异花均可实不育、自花可实不育异花可育、自花异花都可育等5种结实类型,分别占总品种数的10.27%、16.06%、45.19%、17.15%、11.33%;筛选出稳定表现自花不实或自花可实不育而异花授粉可育率高且种仁饱满的品种2个(小枣4、小墩墩枣),种仁较饱满的5个(洪赵十月红、广东白枣、大荔圆枣、小枣25、圆铃枣),利用这些品种做母本进行杂交育种时可省略去雄程序,有效解决因枣花小去雄难的问题;蛤蟆枣、团枣、无核小枣、马牙枣、核桃纹等自花不实而异花可实的品种,在栽植时应配置授粉树。

Studies on Chemical Constituent of Zizyphus Jujuba in Hebei China

Introduction Jujuba is the fruit of Zizyphus genus(Rhamnaceae) which has been used as a crude drug. Now quite a lot of botanists, chemists and pharmacologists at home and abroad have been deeply interested in the studies on it. Besides the studies on its fruit, a great deal of research work on its other parts has been done So far more

Storage and Remobilization of Nitrogen by Chinese Jujube(Z. jujuba Mill. var. inermis Rehd) Seedling as Affected by Timing of ^(15)N Supply

Winter jujube orchard nitrogen （N） management aims at increasing N reserves to meet the tree＇s growth requirements. Fertilization strategies should maximize the efficiency of fertilizers, including the choice of the optimal timing of N supply. ^15N-urea was applied to winter jujubes on Jinsixiaozao jujubes rootstock to evaluate the effect of application timing on Nstorage and remobilization in mature trees in pot culture. The treatments consisted of ground application before budding （BB）, during fruit core-hardening stage （FCH）, and fruit rapid-swelling stage （FRS）. Nitrogen-use efficiency of treatments were significantly different, which were 2.42% （BB）, 9.77% （FCH）, and 9.01% （FRS） in the dormant and 5.20% （BB）, 16.16% （FCH）, and 10.30% （FRS） in the following full-bloom. N supply in the pre-harvest helped to increase N-reserves of trees and then translocate to the new growth organs the following year. The largest amount of ^15N was detected in the roots and trunks. In all the treatments, the partition rates were highest in coarse roots, which were 30.43% （BB）, 38.61% （FCH）, and 40.62% （FRS）, respectively. ^15N stored in roots and trunks was used by jujube trees to sustain new growth in the following full-bloom. ^15N applied before budding resulted in lower Ndff% in perennial organs （trunks and coarse roots） sampled in the following full-bloom, but fine roots had highest Ndff% （1.28%）. Other organs recovered similar amount of Ndff%. In contrast, FCH and FRS treatments led to higher Ndff% （4.01-5.15%） in the new growth organs （new growth branches, deciduous spurs, leaves and flowers）, but lower Ndff% in perennial branches （1.49-2.89%）. With the delay of ^15N-urea application time, ^15N increased the partitioning to roots. FCH treatment increased N-storage in perennial organ during winter, which should be remobilized to sustain new growth the following spring.

Growth inhibitory effect of phenolic extracts of Ziziphus jujuba Mill.in dengue vector Aedes aegypti(L)in parent and F1 generation

Objective: To evaluate the lethal and emergence inhibitory effect of alkaloid, phenolic and terpenoid extracts of Ziziphus jujuba(Z. jujuba; Rhamnaceae) against Aedes aegypti(Diptera: Culicidae), and to explore the effect of the most effective fraction on developmental and biochemical parameters of the dengue vector. Methods: The fourth instar larvae of Aedes aegypti were exposed to alkaloid, phenolic and terpenoid extracts from Z. jujuba leaves to test their toxicity and emergence inhibitory effects. Phenolic extract, being the most effective was further tested against the mosquitoes for their growth inhibitory effect supported by biochemical changes in the parent and F1 generation. Results: While the different secondary metabolite fractions i.e., alkaloid, phenolics and terpenoid caused mortality at larval and pupal stages, the LC_(50) value was the lowest for phenolic fraction. Further study carried out with the phenolic fraction revealed that it affected growth by decreasing adult life span, fertility and fecundity of the mosquitoes. The reduction in growth was also accompanied by decrease in carbohydrate and lipid levels. Conclusions: It is concluded that the phenolic extract of the leaves of Z. jujuba is a potential candidate for control of Aedes mosquitoes.

Jujube(Ziziphus jujuba Mill.(Rhamnaceae)):a review on its pharmacological properties and phytochemistry

Jujube(Ziziphus jujuba Mill.)belongs to the Rhamnaceae family.It is distributed in the tropical and subtropical regions of Europe and Asia,including India,China,Iran,Russia,and the Middle East.Jujube is a highly tolerant tree that is resistant to soil salinity and alkalinity.Jujube possesses many phytochemical components and pharmacological properties that make it a good choice for the human diet.Jujube fruit is nutritious and rich in proteins,minerals,vitamins,organic acids,and carbohydrates.It also contains phytochemical components such as polyphenols,flavonoids,terpenoids,anthocyanins,alkaloids,and carotenoids.Jujube has both nutraceutical and cosmeceutical properties.All parts of this plant possess medicinal properties.Jujube has a long history of use in traditional medicine,especially in traditional Persian medicine.It has many pharmacological properties according to traditional Persian medicine,which include anti-pruritic and tranquilizing effects for renal and bladder pain.In Chinese medicine,jujube is used to increase appetite and treat diarrhea and fatigue.This indicates that jujube has several chemical constituents and beneficially affects multiple organs and tissues.These properties include antioxidant,anti-cancer,antimicrobial,neuroprotective,cardioprotective,and hepatoprotective activities.It also has health-promoting effects,including anti-aging properties.

Comparison of Different Processing Methods of Ziziphus jujuba Mill.

[Objectives]To study and compare the processing methods of Ziziphus jujuba Mill.[Methods]Z.jujuba was processed by seven methods:cleaning,yellowish frying,burnt frying,carbonized frying,moistening by hot sand,steaming,and boiling.Ultraviolet-visible spectrophotometry was used to determine the content of total flavonoids in each processed Z.jujuba.[Results]The content of total flavonoids measured by various processing methods was different.The content of total flavonoids in the processed Z.jujuba by moistening by hot sand was relatively high and the absorption peak spectrum was almost the same as that of the cleaned processed Z.jujuba and the rutin reference substance.[Conclusions]The moistening by hot sand is the optimal method for processing of Z.jujuba.

黄腐酸钾对灵武长枣氮素吸收、分配及利用的影响

以5年生的灵武长枣(Ziziphus jujuba Mill. cv. Lingwuchangzao)树为试材,采用15N示踪法进行田间试验,研究0 kg/株(CK)、0.5 kg/株(T1)、1.0 kg/株(T2)、1.5 kg/株(T3)不同黄腐酸钾有机肥施用量对灵武长枣氮素吸收、分配、利用的影响。结果表明,灵武长枣树体氮积累量随黄腐酸钾供应水平的提高而增加,1.5 kg/株黄腐酸钾处理在果实成熟期氮积累量最高,达59.66 g/株,各处理以叶片、果实氮积累量较高;3个黄腐酸钾处理均显著提高了植株对氮素的吸收征调能力(NdFF)和15N吸收量(P<0.05),表现为T3>T2>T1>CK,不同器官的NdFF表现为果实最高;不同施肥处理的植株各器官15N分配率存在差异,以贮藏器官(果实)较高;与CK相比,3个黄腐酸钾处理15N当季利用率增加了2.27~5.34个百分点,以T3处理最佳,为8.92%。综合分析认为,配施1.5 kg/株黄腐酸钾有机肥,灵武长枣植株15N的吸收利用效果最佳。

干旱区骏枣根系分布和土壤养分关系分析

【目的】研究干旱区骏枣吸收根和输导根分布特征及其与土壤养分的关系。【方法】以阿拉尔垦区6年生骏枣为试材,采用剖面挖掘和分层取样法,使用WinRHIZO根系分析系统测定骏枣不同直径的根系根长、根表面积和根体积指标,并测定不同生长期(0~60 cm深度)土壤的碱解氮、速效磷、速效钾含量,分析根系分布与土壤养分的相关性。【结果】各土壤空间,吸收根根长密度始终高于输导根,根体积则相反。垂直方向上,吸收根和输导根根长密度和根表面积密度均随土层加深而下降,0~20 cm土层根系最密集,吸收根根长密度和根表面积密度占比分别为77.1%、76.5%,输导根占比为76.0%、74.6%。水平方向上,吸收根在0~20 cm和20~40 cm水平距离土壤密集分布,根长密度占比为20.0%~20.7%,根表面积密度占比20.0%~22.2%,输导根占比分别为21.8%~22.1%,18.4%~23.8%;40~140 cm水平距离土壤吸收根根长密度和根表面积密度占比8.8%~14.4%,输导根为8.7%~14.5%,吸收根根长密度和根表面积密度均随水平距离增加缓慢下降,输导根表现为上升下降往复变化,存在差异性。吸收根和输导根根长密度和根表面积密度与展叶期土壤碱解氮、幼果期碱解氮和速效磷相关系数大于0.820,吸收根根长密度和根表面积密度与展叶期土壤速效磷相关系数大于0.809,均表现极显著正相关性,根长密度和根表面积密度与速效钾成负相关关系,相关性不显著。【结论】骏枣根系分布较浅,0~20 cm深度、0~40 cm水平距离的土壤根系分布较为密集,是水分和养分利用的重要区域,根系在垂直方向分布与展叶期和幼果期土壤中的碱解氮和速效磷含量密切相关。

‘灵武长枣’果实发育过程中果肉质地与解剖结构的变化

为探究‘灵武长枣’发育过程中枣果质地与解剖结构的变化特征及两者间关系。以国家地理标志品种‘灵武长枣’为试验材料,利用质地剖面分析法(TPA)和石蜡切片法,分析测定果实7项质地品质指标、10项显微结构指标,并对果实基本性状进行测定。结果表明,‘灵武长枣’果实成熟过程中,以硬核期为转折点,硬核期到半红期枣果实品质发生了显著变化,如硬核期到膨大前期单果质量增幅412.3%、体积增幅403.7%,且果实解剖结构与大部分质地参数显著相关。即随着果实成熟,果实的单果质量、纵横径,体积均增加;果实硬度、脆度和胶粘性先增大后减小,弹性、咀嚼性和粘附性呈上升趋势,内聚性变化不显著。果皮变薄,表皮细胞和薄壁细胞、维管束和空腔面积增大,细胞排列变疏松,成熟期口感变酥脆。角质层加厚,果实抗损伤性加强。此外,枣果表皮细胞中的质体也发生很大变化,幼果期到半红期,由叶绿体逐渐转变为有色体。进一步相关性分析表明,果实硬度、弹性、咀嚼性和粘附性同枣果细胞形态参数存在不同程度的相关性,粘附性与大部分果实细胞形态参数达极显著水平,如粘附性与空腔面积呈极显著正相关(r=0.979)。‘灵武长枣’果实发育过程中,其果实品质发生显著变化,其中果实细胞形态的动态变化显著影响其质地品质(硬度、弹性、咀嚼性、粘附性)。

金丝小枣全枣、枣皮、枣肉黄酮提取物的抗氧化活性和免疫活性

以金丝小枣为研究对象,分别测定金丝小枣全枣、枣皮、枣肉的黄酮提取物对DPPH·、ABTS+·、·OH清除能力和总还原力,并利用刀豆蛋白A(concanavalin A,ConA)和脂多糖(lipopolysaccharide,LPS)分别诱导小鼠脾脏T淋巴细胞和B淋巴细胞增殖反应,探究金丝小枣的全枣、枣皮、枣肉的黄酮提取物的免疫活性。试验结果表明:金丝小枣全枣、枣皮、枣肉黄酮抗氧化活性和免疫活性存在差异,枣皮黄酮的抗氧化活性和免疫活性最强,枣肉黄酮提取物的抗氧化活性和免疫活性最弱,但全枣、枣皮、枣肉黄酮提取物对DPPH·和·OH的清除活性高于VC,且全枣、枣皮、枣肉黄酮提取物对小鼠脾脏T淋巴细胞、B淋巴细胞的增殖均具有促进作用。

不同生长时期酸枣果肉多糖相对分子质量分布和单糖组成及抗氧化活性研究

为了探究不同生长时期酸枣果肉中多糖含量、相对分子质量、单糖组成及抗氧化活性变化规律,以野生型和种植型酸枣为研究对象,分别采用苯酚-硫酸比色法、高效凝胶色谱法、高效离子色谱法和DPPH自由基清除实验研究其不同生长时期的果肉多糖含量、相对分子质量、单糖组成和自由基清除能力。研究发现野生型和种植型的酸枣果肉中多糖含量均表现出先下降后上升的趋势;两种类型的酸枣果肉多糖的相对分子质量均随着酸枣的发育逐渐降低;两种类型酸枣果实发育前期果肉多糖中单糖鼠李糖含量最高可达46.14 mg/g,半乳糖次之可达33.10 mg/g;果实发育后期,两种类型的酸枣果肉多糖中单糖含量最高的为阿拉伯糖可达60.30 mg/g,半乳糖醛酸次之可达45.02 mg/g;两种类型酸枣果肉多糖的DPPH自由基清除能力变化趋势与其果肉中多糖含量变化趋势基本相同;种植型酸枣与野生型酸枣在多糖含量、多糖相对分子质量、单糖组成和自由基清除能力方面均表现为相同的趋势,且均属于还原糖积累类型果实。研究结果为酸枣果肉资源进一步开发与利用提供参考。

灵武长枣两种光泽度果实外形特征性状比较分析

【目的】探究灵武长枣两种光泽度果实,即高光泽度果实(S果)和低光泽度果实(R果)的光泽度及外形特征性状关系的差异,为灵武长枣优质高效栽培提供参考与指导。【方法】采集6、9和12 a生灵武长枣的两种光泽度果实(S/R果)作为试验材料,测定其光泽度、单果质量、果实横纵径、果实硬度、果皮厚、果肉厚、核纵横径、单核质量、可食率和含仁率等果实外形特征性状,并对其进行了比较和相关性分析。【结果】1)3个树龄的R果的单果质量、果实横纵径、果皮厚、核纵横径、含仁率均极显著大于S果的(P<0.01),其中6、9和12 a生灵武长枣R果的含仁率分别是S果的28.04、15.49、14.99倍,并且R果的光泽度极显著小于S果的(P<0.01),仅为S果的63.1%~67.1%,R果的果肉厚、单核质量均显著大于S果的(P<0.05);12 a生的R果的可食率最小,且9、12 a生的均显著小于同年份的S果的可食率;2)不同树龄灵武长枣,于高光泽度果实(S果)而言:在光泽度、单果质量、果实横纵径、果实硬度、果肉厚、核纵径、单核质量、可食率在树龄上存在显著差异(P<0.05);于低光泽度果实(R果)而言:其果实纵径、果实硬度、果皮厚、核纵横径、单核质量、可食率存在显著差异(P<0.05),且与S果表现均不相同;3)不同树龄植株灵武长枣S、R果实的光泽度均与单果质量、果实纵径呈极显著正相关;S果的树龄与单果质量、果实横纵径、果肉厚、枣核纵径、单核质量、可食率呈显著或极显著负相关;R果的树龄与果实纵径、可食率呈显著或极显著负相关,与果实硬度、果皮厚、核横径、单核质量呈显著或极显著正相关。【结论】不同树龄灵武长枣两种光泽度果实的光泽度及外形特征性状均存在极显著差异(P<0.01),并且在树龄、光泽度及其各项外形特征性状之间存在着显著相关性(P<0.05)。

枣品种资源果实的糖酸含量特征分析

糖和酸是构成果实风味的重要物质,鉴定评价枣品种资源果实的糖酸风味,比较不同资源间的糖酸风味构成差异,建立枣品种资源果实糖酸风味评价体系,对资源高效利用具有重要意义。以210份枣资源脆熟期果实为材料,测定可溶性固形物、可滴定酸以及糖组分含量,并进行相关性分析。结果如下:(1)10项指标的变异系数范围在9.81%~34.70%,其中可溶性固形物含量、甜度值和总糖含量的变异系数较小。蔗糖含量的范围差异最大,其最大值是最小值的84.54倍。果糖、葡萄糖、蔗糖、总糖、可滴定酸、甜度值、固酸比和糖酸比等8项指标符合正态分布,可溶性固形物和甜酸比不符合正态分布。(2)果糖、葡萄糖、蔗糖与总糖含量均呈极显著正相关,果糖与葡萄糖含量呈极显著正相关,总糖、可溶性固形物和甜度值间都呈极显著正相关,可滴定酸与固酸比、糖酸比和甜酸比间都呈极显著负相关,固酸比、糖酸比、甜酸比两两之间都呈极显著正相关。(3)因子分析共提取3个主因子,累积贡献率为91.781%。结合各项指标的聚类分析,筛选出果糖、蔗糖、可溶性固形物、可滴定酸和固酸比5项评价枣果实糖酸风味的指标。(4)基于5项评价指标进行聚类分析,将210个枣品种分为5个类群,根据各类群不同指标的含量特征,分别定义为低蔗糖型、高酸型、果糖优势型、中间型和蔗糖优势型,其中蔗糖优势型包含的种质最多。可用果糖、蔗糖、可溶性固形物、可滴定酸和固酸比5项指标对枣果实糖酸风味进行评价,生产中可根据不同类群资源的糖酸指标特点进行针对性应用。

有机无机肥配施显著改善枣园土壤理化性质及金丝小枣产量和品质

设置单施化肥(T1)、单施有机肥(羊粪)(T2)、50%的有机肥氮与50%的化肥氮配施(T3)、不施肥对照(CK)4个处理,研究了不同施肥方式对枣园0~20 cm土壤理化性质及金丝小枣(Zizyphus jujuba cv.Jinsixiaozao)产量和品质的影响。结果表明,各施肥处理对枣园0~20 cm土壤的理化性质均有不同程度影响,与CK和T1相比,T3土壤容重、pH显著降低(P<0.05),土壤孔隙度、有机质含量、全氮、全磷、速效氮和速效磷的含量显著提高(P<0.05)。与CK和T1相比,T2和T3枣果外观品质改善明显,枣果纵径和横径显著增加(P<0.05),枣果可溶性总糖和VC含量也显著增加,坏果率下降。各施肥处理单果重和产量均显著高于CK,以T3枣果产量和纯收入最高,且显著高于T1(P<0.05)。由此可知,50%的有机肥氮与50%的化肥氮配施可有效改善土壤理化性质,能明显提高枣果产量、提升果品品质。

多指标结合AHP-CRITIC优化酸枣叶拌蒸酸枣仁炮制工艺

目的:采用正交设计结合层次分析法-客观赋权法(AHP-CRITIC)优化酸枣叶拌蒸酸枣仁的炮制工艺。方法:采用单因素试验优化辅料酸枣叶的加入倍量和蒸制时间,以酸枣叶的加入倍量和蒸制时间为因素,以斯皮诺素、6‴-阿魏酰斯皮诺素、酸枣仁皂苷A、白桦脂酸含量为评价指标进行综合加权评分,结合AHP-CRITIC优化酸枣仁的拌蒸工艺。结果:最佳拌蒸工艺为酸枣叶加入量是酸枣仁的4倍,1层酸枣叶1层酸枣仁交替平铺,上锅蒸制3 h。结论:多指标结合AHP-CRITIC优选酸枣仁拌蒸工艺合理可行,可为酸枣叶拌蒸酸枣仁炮制工艺的生产实践提供参考。

基于表型性状的酸枣核心种质构建

为更好地保存和研究酸枣种质,提高利用效率,以211份酸枣种质为试材,基于表型性状数据,在25%取样比例下,对所有种质进行逐步系统聚类,从遗传距离方法、取样方法、聚类方法和取样比例4个方面探讨酸枣核心种质的最佳取样策略。根据最佳取样策略和3种分组取样方法进行分组取样,并与不分组取样进行比较。结果表明:基于25%取样比例,采用优先取样法、欧氏距离法和可变类平均法构建核心种质效果最佳;在最佳构建策略下筛选总体取样比例,结果表明最佳总体取样比例为25%;不分组取样构建的核心种质Pcore的方差差异百分率(VD)、变异系数变化率(VR)和极差符合率(CR)高于分组取样构建的核心种质Core-L,构建效果更好;定性描述性状保留比例、t检验、符合率检验、主成分分析和样品三维分布图表明构建的核心种质能够消除遗传冗余,能够代表原始种质。基于表型性状筛选出的最佳构建策略为“欧氏距离+可变类平均法+优先取样法+25%取样比例”,经过补充完善,最终得到58份核心种质,具有较高的代表性。本研究成功构建了能够代表原始酸枣种质表型遗传多样性的核心种质,有助于科学、有效地收集和保存酸枣种质资源,为深入挖掘和利用酸枣种质资源提供了科学依据,同时也为选育酸枣良种奠定基础。