山东湖北海棠(Malus hupehensis(Pamp.)Rehd.)两新变种

记载了分布于山东省的两个湖北海棠的地理变种,泰山海棠与原变种区别于叶缘锯齿较钝较小,果实紫红色,直径约0.6 cm,花较小,直径不足2 cm;平邑甜茶与原变种区别于叶片较大,平展,锯齿大而钝,叶脉较多,较直行,花萼齿披针形,长于萼筒。

介质转换对盆栽平邑甜茶(Malus hupehensis Rehd)的效应

利用一年生平邑甜茶（ＭａｌｕｓｈｕｐｅｈｅｎｓｉｓＲｅｈｄ）盆栽苗进行介质转换试验，研究对植株生长发育的影响，结果表明：由粘土转入沙壤土的，植株生长量有所下降，但器官发育质量提高，尤以叶绿素含量提高显著；沙壤土转入粘土的则相反。不论何种转换，根系生长量均不及对照，但由沙壤土转入粘土的，根系比对照减少更明显，说明粘土中建造起来的根系适应性更强。

Nutrient Deficiency Affects Root Architecture of Young Seedlings of Malus hupehensis (Pamp) Rehd. Under Conditions of Artificial Medium Cultivation

What the researchers go in for is to establish models between root architecture （RA） changes and nutrition, mold ideal root architecture of apple trees, improve the nutrient uptake efficiency, and further explore the functional mechanism of nutrient elements during the course of RA construction. The cultivation system of filter paper is utilized to research the effect of nutrient deficiency on the RA of Malus hupehensis （Pamp.） Rehd. There may be eight types of RA. In complete Hogland solution, the main type of RA is ＂lateral roots clustering in the upper and middle regions of primary root＂. With the lack of P, K or Ca, the main type of RA is ＂lateral roots clustering in the upper region primary root＂, and the ＂lateral roots clustering in the upper and middle regions of primary root＂ types of RA decrease. But with shortage of P, the type of lateral roots clustering in the upper and lower regions of primary root increases, and the type of lateral roots clustering in the middle region of primary root decreases, with the types of RA diversified. Under the condition of K deficiency, the type of no lateral root increases and types of lateral roots clustering in the middle region of primary root decrease, and the percentage of such types as ＂no lateral root＂, ＂lateral roots clustering in the upper region of primary root＂, and ＂lateral roots clustering in the upper and middle regions of primary root＂ accounts for 97.9% in all, with the types of RA simplified. With lack of Fe, Mg or Zn, the main type of RA is ＂lateral roots clustering in the upper and middle regions of primary root＂, but the type of lateral roots evenly-distributed on primary root increases. The main type of RA is ＂lateral roots evenlydistributed on primary root＂, under the condition of N deficiency, and the types of RA turn out to be diversified. There exists a close relation between nutrient deficiency and RA changes. Owing to various forms of nutrient deficiency, correspondingly different types of RA have been produced.

Effects of Cinnamon Acid on Respiratory Rate and Its Related Enzymes Activity in Roots of Seedlings of Malus hupehensis Rehd.

This paper studied the effects of cinnamon acid treatments on the respiratory rate and related enzymes activity in the seedling roots of Malus hupehensis Rehd.It would provide information for understanding the mechanisms of inhibition damage caused by continuous cultivation of apple tree.20 mL of solution containing different concentrations of cinnamon acid was added into container with the tested seedlings.After treatment,the samples were taken periodically and the respiratory rates were measured by OXY-LAB oxygen electrodes under 25°C stable temperature and then the activities of related enzymes were measured.The rates of total respiration and other 2 pathways [tricarboxylic acid cycle （TCA） and pentose phosphate pathway （PPP）] appeared initially an increasing treads and late （on the 3rd d） began to decline.However,they again appeared an increase trend at the end period,on the contrast,the respiratory rate of embden-meyer- hot-parnas （EMP） pathway appeared a stead decline tread but it had a recover on the last day.The respiratory rate of total and 3 pathways were decreased under 125 mg kg-1 （soil）.The dynamic trends of the enzymes activities of pyrophosphate-dependent phosphofructokinase （PFK）,glucose-6-phosphate dehydrogenase （G-6-PDH） and malate dehydrogenase （MDH） showed similarly.In conclusion,treatments of certain concentration of cinnamon acid would inhibit the respiratory rate and related enzymes activity of roots of M.hupehensis Rehd.And the inhibition degrees were positively related with concentration of cinnamon acid treatments.

Relationship Between Polyamines Metabolism and Cell Death in Roots of Malus hupehensis Rehd. Under Cadmium Stress

The free putrescine （Put） content, the hydrogen peroxide （H202） content and the polyamine oxidase （PAO） activity in roots of Malus hupehensis Rehd. var. pinyiensis Jiang （PYTC） were significantly increased, and reached its peak at 1, 2 and 6 h, respectively, under cadmium treatment. The free spermine （Spin） and spermidine （Spd） contents were dramatically decreased, and reached the minimum value at 4-6 h, then remained relatively stable. The change in total free polyammes （PAs） content was consistent with that of free Put. The number of root dead cells was gradually increased after treatment for 24 h, and the typical characteristics of programmed cell death （PCD） were displayed at 48 h. Throughout the Cd treatment process, changes in PAs metabolism appeared to be prior to cell death increase, and the H2O2 content was always maintained at a high level. These results indicated that polyamines could initiate cell death by generating H2O2 in roots of Malus hupehensis Rehd. under CdSO4 stress.

用MaxEnt模拟湖北海棠(Malus hupehensis)地理分布

采用湖北海棠551个分布数据以及当前生物气候数据,用MaxEnt软件模拟了它的地理分布。结果显示:①潜在分布地区有巴基斯坦北部、印度北部、尼泊尔、不丹、缅甸东北部、越南西北部、广西北部、西藏南部及东南部、日本岛东南侧、朝鲜半岛中南部及沿海地区;河北东北部、山东半岛北部和辽宁南部,其中分布值在0.6～1的地区有不丹、韩国济州岛及附近岛屿和日本及附近岛屿。②分布记录非常少,但分布值已达0.6～1的地区有山西东南部、江苏省南通、四川雅安市汉源和山东崂山。③以分布值在0.6～1的地区来表示现实地理分布格局,自西东向分布为喜马拉雅南部,东南部-横断山-秦岭-巫山-长江中下游山地-武夷山-朝鲜半岛-日本岛。自北向南,北界在太行山南部,南界武夷山西南部。④Jackknife test检测表明干旱季节的平均温度对湖北海棠的分布增益贡献最大,本种自然分布于干旱季节平均气温在-10℃～15℃的地区。

The mitigation effects of exogenous dopamine on low nitrogen stress in Malus hupehensis

Dopamine plays numerous physiological roles in plants.We explored its role in the regulation of growth,nutrient absorption,and response to nitrogen(N)deficiency in Malus hupehensis Rehd.Under low N condition,plant growth slowed,and the net photosynthetic rates,chlorophyll contents,and maximal quantum yield of PSII(Fv/Fm)decreased significantly.However,the application of 100μmol L−1 exogenous dopamine significantly reduced the inhibition of low N stress on plant growth.In addition to modifying root system architecture under low N supply,exogenous dopamine also changed the uptake,transport,and distribution of N,P,and K.Furthermore,exogenous dopamine enhances the tolerance to low nitrogen stress by increasing the activity of enzymes(nitrate reductase,nitrite reductase,glutamic acid synthase and glutamine synthetase)involved in N metabolism.We also found that exogenous dopamine promoted the expression of ethylene signaling genes(ERF1,ERF2,EIL1,ERS2,ETR1,and EIN4)under low N stress.Therefore,we hypothesized that ethylene might be involved in dopamine response to low N stress in M.hupehensis.Our results suggest that exogenous dopamine can mitigate low N stress by regulating the absorption of mineral nutrients,possibly through the regulation of the ethylene signaling pathway.

Change of Mineral Elements and Amino Acids in <i>Malus hupehensis var. pingyiensis</i>Leaves under Cd Treatment

The objective of this paper is to research the effects of CdCl2 treatment on mineral elements and amino acids in leaves of Malus hupehensis var. pingyiensis. The seedlings of Malus hupehensis var. pingyiensis with 6 leaf were cultured in 1/2 Hoagland nutrient solutions of different CdCl2 treatments (0, 0.5, 5 and 10 mg·L-1), respectively. The mineral elements and amino acids of the leaves in Malus hupehensis var. pingyiensis were measured in the day 30. Compared with the control (0 mg·L-1 CdCl2), the treatments significantly decreased the contents of Mg, Fe and Zn in the tested leaves and obviously increased the contents of Cd in the experimental leaves. As to Ca and Mn, low concentration Cd treatment (0.5 mg·L-1 CdCl2) promoted their absorption, however, high concentration Cd treatments (5 and 10 mg·L-1 CdCl2) inhibited their absorption. The metabolism pathway and content of amino acids in the Malus hupehensis var. pingyiensis leaves under Cd treatment were modified, the content of amino acids in the glycolate pathway became larger than that in control, the content of amino acids in the pyruvic acid synthesis pathway and tyrosine and phenylalanine became smaller than that in control, the content of other amino acids also had made a certain degree change. The results provided the important basis for safety production and quality evaluation of leaves in Malus hupehensis var. pingyiensis.

Effects of Exogenous Manganese (Mn) on Mineral Elements, Polyamines and Antioxidants in Apple Rootstock Malus robusta Rehd.

Manganese(Mn)is one of the essential microelements in all organisms.However,high level of Mn is deleterious to plants.In this study,the effects of exogenous manganese application on mineral element,polyamine(PA)and antioxidant accumulation,as well as polyamine metabolic and antioxidant enzyme activities,were investigated in Malus robusta Rehd.,a widely grown apple rootstock.High level of Mn treatments decreased endogenous Mg,Na,K and Ca contents,but increased Zn content,in a Mn-concentration-dependent manner.Polyamine metabolic assays revealed that,except the content of perchloric acid insoluble bound(PIS-bound)spermine,which increased significantly,the contents of putrescine(Put),spermidine(Spd)and spermine(Spm)all decreased progressively,accompanied with the decreased activities of arginine decarboxylase(ADC,EC 4.1.1.19)and ornithine decarboxylase(ODC,EC 4.1.1.17),and the increased activities of diamine oxidase(DAO,EC 1.4.3.6)and polyamine oxidase(PAO,EC 1.5.3.3).Further antioxidant capacity analyses demonstrated that contents of anthocyanin,non-protein thiols(NPT)and soluble sugar,and the activities of guaiacol peroxidase(POD,EC 1.11.1.7),catalase(CAT,EC 1.11.1.6)and superoxide dismutase(SOD,EC 1.15.1.1),also increased upon different concentrations of Mn treatments.Our results suggest that endogenous ion homeostasis is affected by high level of Mn application,and polyamine and antioxidant metabolism is involved in the responses of M.robusta Rehd.plants to high level of Mn stress.

NO_3^-/NH_4^+ ratios affect plant growth, chlorophyll content,respiration rate, and morphological structure in Malus hupehensis seedlings

Malus hupehensis （Pamp.） Rehd. is a widely cultivated rootstock in China. We studied the effect of three NO3-/NH4＋ ratios （100/0, 50/50, and 0/100, molar basis） at total nitrogen （N） concentration of 8 mmoL L-1 in a nutrient solution on M. hupehensis seedlings. Plant biomass, NO3- and NH4＋concentrafion, chlorophyll con- tent, respiratory rate, and cellular structure were investi- gated. M. hupehensis seedlings at the NO3-/NH4＋ ratio of 50/50 had the highest level of fresh weight, dry weight, shoot length, and chlorophyll （a, b, and a ＋ b） content, but the lowest respiration rate in the leavesand roots. In addition, thickness and numbers of palisade and spongy tissue cells of the leaves were greater with this treatment than with other treatments. At the NO3-/NH4＋ ratio of 100/0, the leaves and roots had higher NO3- concentration and lower NH4＋ concentration. However, the opposite trend occurred at the NO3-/NH4＋ ratio of 0/100. Chloro- phyll （a, b, and a ＋ b） content was lowest at the NO3-/NH4＋ ratio of 100/0 than at the other ratios. At the NO3-/ NH4＋ ratio of 0/100, oxygen （02） consumption increased in the leaves and roots, and irregular epidermis and cortex cells were observed in the root apical meristematic and mature region. Our results indicated that the NO3-INH4＋ ratio at 50/50 was suitable for growth of M. hupehensis seedling to achieve the highest biomass production and efficiency.

Effect of Indole Butyric Acid on the Transportation of Stored Calcium in Malus hupehensis Rhed. Seedling

Calcium （Ca） plays an important role in the metabolism of higher plants. Recently, research on Ca^2＋ in plants has been focused especially at the cellular and molecular levels. Uptake, transport, and distribution are also very important for Ca to accomplish its function at the whole-plant level. In this experiment, one-year-old apple seedlings （M. hupehensis Rehd.） were investigated to determine the distribution of stored Ca, the different forms of Ca, and Ca^2＋-ATPase activity after treatment with indole butyric acid （IBA）. The results showed that the total Ca measured in mature leaves and Ca^2＋- ATPase activity in tender leaves were higher compared with those in the control （CK）. Calcium nitrate and calcium chloride （ALe-Ca） and calcium phosphate and calcium carbonate （HAC-Ca） decreased in both mature leaves and shoots, whereas water-soluble calcium （H2O-Ca）, calcium pectate （NaCl-Ca）, and calcium oxalate （HCl-Ca） increased. The percentage of active calcium, calcium pectate, and water-soluble calcium increased, whereas the percentage of calcium phosphate and calcium carbonate decreased. When treated with IBA, calcium fractions and percentage of the different forms of Ca was enhanced in 40 part per million （ppm） IBA compared with 20 ppm IBA and water. The results indicated that IBA increased the percentage of both active calcium （NaCl-Ca and H2O-Ca） in tender shoots and boosted the transportation of stored Ca in plants. IBA promoted Ca^2＋-ATPase activity and Ca^2＋ uptake in tender shoots of M. hupehensis. It can improve the total Ca contents and the relative percentage of Ca.

Effect of Acid Treatment on Root Architecture in Seedlings of <i>Malus hupehensis</i>var. <i>pingyiensis</i>

The purpose of this paper is to explore the effects of acid treatment on root morphology and architecture in seedlings of Malus hupehensis var. pingyiensis. The rootstock seedlings were cultured in 1/2 Hoagland nutrient solutions of different pH (pH 4, pH 4.5, pH 5 and pH 6), respectively. The parameters of root architecture were measured in the day 4, 8 and 12 with the professional WinRHIZO 2007. Compared with the control (pH 6), the treatments significantly decreased the fractal dimension, length, diameter, surface area and volume of roots in day 8 and 12, and they kept decreasing followed the increase of the acidity and treatment time. The growth of lateral roots was more susceptible to acid treatment than taproots. In addition, the acid treatment mainly inhibited the growth of rootlets, significantly decreased the proportion of rootlets that changed the composition of roots, and then simplified the space structure of roots.

Effects of Lignin on Root Activity and Soil Nutrients of <i>Malus hupehensis</i>. var. <i>pingyiensis</i>under the Use of Organic Fertilizer

One-year Malus hupehensis. var. pingyiensis seedlings potted in soil mixed with 10% or 40% organic fertilizer were treated with two concentrations of lignin (1.5 and 2.5 g·kg-1), and detected the effects of lignin on root activity and soil nutrients in rhizosphere soil of Malus hupehensis. var. pingyiensis. (1) Lignin improved root activity of Malus hupehensis. var. pingyiensis, increased soil available nitrogen contents and soil organic matter contents. (2) Under 10% organic fertilizer, lignin improved soil available P and K contents. The root activity in Malus hupehensis. var. pingyiensis was the largest in 2.5 g·kg-1?lignin treatment. (3) Under 40% organic fertilizer, compared with the CK2 (the treatment of soil with organic fertilizer content 40%), lignin decreased the content of rhizosphere soil available K. 1.5 g·kg-1 lignin treatment had obviously increased the content of soil available P. The root activity was the largest in 2.5 g·kg-1 lignin treatment, while the content of rhizosphere soil available K lowered 8.5% compared with that of CK2 in the same treatment. Lignin changed the soil nutrients, 2.5 g·kg-1 lignin significantly improved root activity of Malus hupehensis. var. pingyiensis. The results provided a theoretical basis for the regulation of root activity and soil nutrients in Malus hupehensis. var. pingyiensis.

海棠(Malus hupehensis)叶提取物的清除自由基活性和成分分析

首次用高效液相色谱和高分辨质谱以及二苯基苦基苯肼自由基试验法对海棠(Malus hupehensis)叶提取物的清除自由基活性和成分及清除DPPH自由基活性进行了研究,结果表明:海棠叶的甲醇提取物具有一定的清除DPPH自由基活性,对0.4mg/mL DPPH自由基的半数清除浓度为0.53mg叶/mL甲醇。薄层实验表明海棠叶的甲醇提取物组成较单一。DPPH实验表明提取物中有一极性较低的弱的自由基清除活性物质存在。HPLC-DAD-MS分析表明海棠叶甲醇提取物的主要成分可能为:C7H12O6、C6H14O6、C21H24O11、C21H24O10和C21H20O11,其中C21H24O11、C21H24O10和C21H2O O11三个化合物都有明显的清除自由基活性。

陕西省被子植物两个新记录属——守宫木属和杜茎山属

通过野外调查并结合标本查阅、比对,发现了陕西省被子植物的两个新记录属,分别为叶下珠科(Phyllanthaceae)守宫木属(Sauropus Blume.)和报春花科(Primulaceae)杜茎山属(Maesa Forssk),对应的新记录种分别为苍叶守宫木(Sauropus garrettii Craib)和湖北杜茎山(Maesa hupehensis Rehd.)。本研究对两个新记录属的背景进行了简要介绍,并详细描述了两个新记录种的形态特征,同时提供了两个物种野外照片及植株、叶片、花、果的照片。两个新记录属和种的发现不仅对陕西省植物分布研究具有重要意义,也为该区域相关类群的志书编写工作提供了重要参考资料。凭证标本保存于山东省林草种质资源中心植物标本馆(SDFGR,the herbarium of Shandong Forest and Grass Germplasm Resource Center)和陕西省西安植物园植物标本室(XBGH,the herebarium of Xi’an Botanical Garden,Shaanxi Province)。

平邑甜茶离体快繁体系的建立

平邑甜茶(Malus hupehensis)作为砧木,被广泛应用于苹果生产。为进一步提高平邑甜茶的离体快繁效率,以平邑甜茶春季幼嫩新梢带芽茎段为外植体,探究不同外植体消毒方式、不同植物生长调节剂配比对组培苗增殖和生根培养的影响,建立平邑甜茶离体快繁体系。结果表明,平邑甜茶新梢带芽茎段用75%酒精处理30 s+2%次氯酸钠溶液处理12 min的消毒效果较好,成活率达81.11%。最佳增殖培养基为MS+1.0 mg/L 6-BA+0.1 mg/L IBA,增殖系数为7.09;最适生根培养基为1/2MS+0.15 mg/L NAA,该处理下的生根率为75.55%,平均根系数量和长度分别为3.23条、3.57 cm;生根后的组培苗在蛭石∶珍珠岩∶营养土质量比为1∶1∶1基质中的移栽成活率为90%。该离体快繁体系,为周年培育平邑甜茶砧木苗提供了技术支持。

平邑甜茶发根农杆菌介导转化体系构建与优化

【目的】建立并优化平邑甜茶(Malus hupehensis Rehd.)幼苗简单、高效、快速的发根农杆菌转化体系。【方法】以不同苗龄的平邑甜茶幼苗为材料,使用携带GFP及GUS过表达质粒的发根农杆菌K599,通过注射法、活化菌液浸染及菌株涂抹方法侵染平邑甜茶根颈部诱导毛状根,利用GFP荧光检测、GFP蛋白印迹检测、DNA检测和GUS染色方法进行转基因株系验证,同时对成功转化株系根、茎、叶组织的表达量进行分析,检测发根农杆菌在转化平邑甜茶株系中的迁移性。【结果】不同苗龄平邑甜茶幼苗诱导毛状根能力具有较大差异,其中三叶龄幼苗诱导毛状根率最高,为96%,五叶龄幼苗最高的毛状根诱导率为65%,以使用菌株涂抹方式转化植株的毛状根分布为最佳、毛状根诱导率为最高。发根农杆菌在成功转化株系中存在随机向地上部迁移的现象,并能够整合目的基因至叶片叶柄及部分主叶脉基因组中,但在培养30 d时无法通过蛋白印迹方式在蛋白水平上检测到蛋白信号。【结论】建立并优化了简单、高效的发根农杆菌介导的平邑甜茶转化体系,鉴定了发根农杆菌在转化株系中随机向地上部迁移规律,为发根农杆菌技术的进一步利用提供理论依据。

茉莉酸甲酯对平邑甜茶光合、根构型及氮吸收的影响

茉莉酸甲酯能够明显影响果树的生长发育。为探索茉莉酸甲酯(MeJA)在苹果树生长发育中的作用,以苹果砧木平邑甜茶幼苗为试材,采用水培法开展叶面喷施茉莉酸甲酯对平邑甜茶光合、根系构型及氮素吸收的影响研究。结果显示,喷施茉莉酸甲酯能促进平邑甜茶植株生长、改善根构型及增强根活力、提高叶片叶绿素含量与净光合速率,影响根系对氮素等养分的吸收利用。中等浓度(2.5μmol·L^(-1))喷施效果最显著,而喷施高浓度(250μmol·L^(-1))的茉莉酸甲酯对植株生长、光合作用等有一定抑制作用。

湖北海棠离体快繁体系的建立

【目的】建立苹果砧木湖北海棠离体快繁体系,为苹果砧木苗的周年供应提供技术支撑。【方法】以湖北海棠幼嫩春梢带芽茎段为外植体,研究植物生长调节剂(6-BA,IBA)浓度对组培苗增殖和生根的影响,筛选最适合其增殖和生根的培养基配方,建立湖北海棠离体快繁体系。【结果】湖北海棠幼嫩春梢带芽茎段经消毒处理后接种至MS+6-BA 2 mg/L+NAA 0.1 mg/L+GA30.3 mg/L培养基上,其萌芽率为77.78%;最佳增殖培养基配方为MS+1.0 mg/L 6-BA+0.1 mg/L IBA+7 g/L琼脂+30 g/L蔗糖,增殖系数为8.13;最佳生根培养基配方为1/2 MS+0.45 mg/L IBA+7 g/L琼脂+30 g/L蔗糖,生根率为97.78%,平均根系数量和长度分别为3.28条和3.35 cm;生根培养30 d后,组培苗的移栽成活率为85.27%。【结论】湖北海棠的最佳增殖培养基配方为MS+1.0 mg/L 6-BA+0.1 mg/L IBA+7 g/L琼脂+30 g/L蔗糖,最佳生根培养基配方为1/2 MS+0.45 mg/L IBA+7 g/L琼脂+30 g/L蔗糖。该组培快繁体系可有效控制湖北海棠的玻璃化现象,提高其增殖率和生根率。

Dopamine improves apple replant disease resistance by regulating physiological resilience and rhizosphere microbial community structure

Apple replant disease(ARD)is a complex agricultural problem caused by multiple stressors that can lead to increased reactive oxygen species(ROS)levels and limited nutrient utilization in plants.However,existing countermeasures cannot effectively address this challenge.Here,we used Malus hupehensis as a test organism to investigate whether the pleiotropic molecule dopamine can alleviate ARD using pot experiments.Exogenous application of 100μmol L-1 dopamine significantly promoted the growth of apple seedlings in the replanted soil,with a relative growth rate increase of 17.44%.Our results revealed two major pathways by which dopamine regulates ARD resistance in apple trees.First,dopamine effectively reduces the level of ROS and activates the expression of genes related to nitrogen(N)transport and metabolism.Among those genes,MdNLP5,MdNRT1.1,MdNLP2,MdNRT2.5,MdNLP3,MdNRT2.4,MdNADH-GAGOT,and MdFd-GAGOT were strongly regulated by dopamine.These regulatory effects promoted the uptake and utilization of soil N by the plants.Second,dopamine improved the physical and chemical properties,enhanced microbial community diversity,and promoted mutual cooperation between microbial communities in the soil.Furthermore,dopamine altered the microbial structure of rhizosphere soil(upregulating Clostridiales,Gaiellales,Sordariales and Mortierellales;downregulating Micrococcales,Longimicrobiales,Hypocreales and Cystobasidiales).Notably,dopamine significantly upregulated the abundances of Gaiella and Mortierella,both of which were positively correlated with soil urease activity,soil available N content,plant growth and N uptake.Dopamine also significantly downregulated the abundance of the plant pathogen Gibberella(by 11.71-fold)in replant soil.Our results provide insights into the mechanisms by which dopamine promotes ARD resistance,and can promote the sustainable development of the apple industry.