接种肉苁蓉对梭梭天然林的影响研究

在新疆准噶尔盆地东南缘广泛分布的平缓低洼地、平缓沙地和半流动沙丘等不同生境类型的梭梭天然林内,进行人工接种肉苁蓉对梭梭天然林影响的试验研究。结果表明,接种肉苁蓉对梭梭天然林林下植被的种类组成、植株数量、植被盖度、物种多样性、生物量以及天然更新的幼苗幼树等都将产生不同程度的影响。其中,在平缓低洼地的梭梭天然林内,因挖接种穴和回填,林下植被的个体数损失4.1×104株.hm-2,占接种前林下植被个体总数的18%;林下植被的生物量损失35.64kg.hm-2,占接种前林下植被生物总量的14.9%;梭梭幼苗幼树的个体数损失1320株.hm-2,占接种前梭梭幼苗幼树个体总数的24.2%。在平缓沙地的梭梭天然林内,林下植被的个体数损失2.6×104株.hm-2,占接种前林下植被个体总数的49%;林下植被的生物量损失39.87kg.hm-2,占接种前林下植被生物总量的19.0%;梭梭幼苗幼树损失345株.hm-2,占接种前梭梭幼苗幼树的18.8%。在半流动沙丘的梭梭天然林内,林下植被的个体数损失2000株.hm-2,占接种前林下植被个体总数的5%;林下植被的生物量损失9.98kg.hm-2,占接种前林下植被生物总量的6.0%;梭梭幼苗幼树损失256株.hm-2,占接种前梭梭幼苗幼树的3.8%。受挖接种穴和回填直接影响的调查样方内,植物个体数减少26%~53%,植被总盖度减少46%~52%,物种多样性下降5%~13%,生态优势度提高2%~6%,梭梭天然更新幼苗幼树减少40%~75%,林下植被地上和地下部分的生物量损失25.2%~55.7%。     

肉苁蓉寄生生长形态发育

肉苁蓉(Cistanche deserticola)是一种沙生根寄生濒危药用植物。利用光镜和电镜手段, 采用人工培养和诱导等方法详细观察并研究了肉苁蓉寄生生长过程中种子萌发、吸器产生以及植物体形态发育的过程。结果表明: (1)人工可以诱导肉苁蓉的种子萌发。肉苁蓉种胚具有明显的极性, 珠孔端细胞小于合点端, 珠孔端细胞分化、生长并产生白色的类胚根状结构。(2)有些化学物质可以诱导初生吸器的产生。用2, 6二甲氧基-对苯醌培养肉苁蓉24-26小时后, 其先端膨大并产生突起, 形成类似根毛状的结构, 即初生吸器。(3) 肉苁蓉属于主动寄生植物, 其在初生吸器与寄主幼根黏连后产生次生吸器。肉苁蓉与寄主梭梭(Haloxylon ammodendron)共培养, 其初生吸器主动与寄主幼根(0.1 mm左右)黏连, 穿过寄主根表皮和皮层后与维管束连通形成次生吸器, 肉苁蓉植物体分化、发育的基本组织形成。被寄生后的寄主根横向发育加快, 同时肉苁蓉植物体开始分化和发育。(4)肉苁蓉可以寄生在寄主幼根(0.1 mm左右)的任意部位。     

肉苁蓉寄生生长形态发育

肉苁蓉(Cistanche deserticola)是一种沙牛根寄生濒危药用植物.利用光镜和电镜手段,采用人工培养和诱导等方法详细观察并研究了肉苁蓉寄牛牛长过程中种子萌发、吸器产生以及植物体形态发育的过程.结果表明:(1)人工可以诱导肉苁蓉的种子萌发.肉苁蓉种胚具有明显的极性,珠孔端细胞小于合点端,珠孔端细胞分化、生长并产生白色的类胚根状结构.(2)有些化学物质可以诱导初生吸器的产生.用2,6二甲氧基-对苯醌培养肉苁蓉24-26小时后,其先端膨大并产生突起,形成类似根毛状的结构,即初生吸器.(3)肉从蓉属于主动寄生植物,其在初生吸器与寄主幼根黏连后产生次生吸器.肉苁蓉与寄主梭梭(Haloxylon ammodendron)共培养,其初生吸器主动与寄主幼根(0.1 mm左右)黏连,穿过寄主根表皮和皮层后与维管束连通形成次生吸器,肉苁蓉植物体分化、发育的基本组织形成.被寄生后的寄主根横向发育加快,同时肉从蓉植物体开始分化和发育.(4)肉苁蓉可以寄生在寄主幼根(0.1 mm左右)的任意部位.     

肉苁蓉和寄主梭梭体内可溶性糖分积累与蔗糖代谢相关酶活性研究

通过测定不同发育时期肉苁蓉和寄主梭梭体内主要糖类物质含量和蔗糖代谢相关酶活性,以研究寄生植物与寄主植物的糖代谢及其关系。结果表明:未寄生肉苁蓉的梭梭以积累葡萄糖为主,而寄生肉苁蓉的梭梭在夏季休眠期以积累葡萄糖为主,进入秋季旺盛生长期时以积累蔗糖为主。肉苁蓉的糖分积累与梭梭不同,己糖含量约占可溶性总糖的62.45%,而蔗糖仅为可溶性总糖的4.98%,故肉苁蓉为己糖积累型。寄主梭梭同化枝内蔗糖磷酸合成酶活性较转化酶活性和蔗糖合成酶活性低,其中寄生肉苁蓉的梭梭的分解酶类活性高于未寄生肉苁蓉的梭梭。肉苁蓉体内转化酶活性较低,而蔗糖合成酶和蔗糖磷酸合成酶活性较高,且蔗糖合成酶活性高于蔗糖磷酸合成酶活性,表现为肉苁蓉中的分解酶类活性高于合成酶类活性,较高的分解酶类活性促进了蔗糖的分解,从而促进了糖分由寄主梭梭向肉苁蓉的不断转移。总体来看,肉苁蓉和寄主梭梭体内糖分的代谢主要以蔗糖合成酶为主,其它2种酶为辅协同参与调控。     

肉苁蓉人工控制离体寄生关键技术研究

以梭梭无菌苗和肉苁蓉萌发种子为材料,对肉苁蓉离体寄生培养基质、离体寄生方式和离体寄生环境条件等进行了研究,以明确肉苁蓉的寄生特性,为肉苁蓉人工繁殖技术体系的建立与优化奠定基础。结果表明:玻璃纤维滤纸是肉苁蓉离体寄生适宜的培养基质;在黑暗、相对湿度80%、温度18℃～30℃的环境中,萌发的肉苁蓉种子与寄主梭梭寄生培养8d后开始建立寄生关系,寄生率达82%;而光照条件下,萌发的肉苁蓉种子与梭梭不能建立寄生关系。     

锁阳和肉苁蓉寄生方式的区别

锁阳和肉苁蓉都是中医药里重要的补益类药材,但由于过度采挖和采挖方式不当,目前它们的野生资源已濒临枯竭。肉苁蓉和锁阳分别是我国濒危和易危珍稀植物,研究二者寄生方式的特点与区别不仅可以促进锁阳和肉苁蓉的人工栽培,从而使野生药材得到一定的保护,而且对了解寄生植物在荒漠地区等极端严酷环境中的适应机制具有重要的生态学意义。该研究采用形态学观察结合常规石蜡切片法,对锁阳和肉苁蓉分别在各自寄主植物上的寄生方式进行了研究。结果表明：(1)锁阳的营养繁殖体在寄主植物根部呈串状分布,与寄主植物的连接方式属于非末端寄生;锁阳的吸器侵入寄主根系韧皮部和木质部的一部分区域,但是韧皮部和木质部大部分区域未被锁阳吸器占据,即有部分营养物质被锁阳“截取”。(2)肉苁蓉在其肉质茎基部长出新的芽体,与寄主植物的连接方式属于末端寄生;肉苁蓉的吸器侵入寄主根韧皮部和木质部全部区域。因此,锁阳寄生后,被寄生的寄主根依然能够向前生长,具有正常的功能;肉苁蓉寄生后,寄生点的寄主根失去根系的正常功能,成为一个为肉苁蓉生长发育提供营养物质的“输送通道( Transport channel)”。     

肉苁蓉的栽培与采收

本文阐述了肉苁蓉的药用价值 ,寄主梭梭及肉苁蓉的栽培技术     

渗透胁迫和外源脱落酸对梭梭幼苗生理特性的影响

水分、渗透胁迫和外源脱落酸（ＡＢＡ）对旱生植物梭梭幼苗的某些生理特性存在显著影响。梭梭幼苗有很强的吸水能力,渗透胁迫下脯氨酸含量增加,其细胞膜相对透性对渗透胁迫不敏感,在脱水过程中具有较强的持水能力,外源ＡＢＡ加强了梭梭幼苗的抗渗透胁迫和抗脱水的能力。     

肉苁蓉寄主梭梭根际土壤微生物种类及群落结构特征

为探索梭梭根际土壤微生物结构特征及其与肉苁蓉寄生的关系,应用磷脂脂肪酸(PLFA)法分析了5—8月份梭梭生长季节的根际土壤微生物种类及群落结构特征,采用湿筛倾注-蔗糖离心法对其根际土壤AM真菌进行了初步分离和鉴定,并分析了肉苁蓉寄生与梭梭根际微生物及环境因子间的相关性。结果表明,5—7月3个月份的梭梭根际土壤微生物磷脂脂肪酸种类及含量均显著高于8月份,总磷脂脂肪酸和AM真菌磷脂脂肪酸以6月份含量最高。梭梭根际土壤共鉴定出AM真菌4属35种,它们分别为球囊霉属(Glomus)22种、无梗囊霉属(Acaulospora)7种、多孢囊霉属(Diversispora)3种和巨孢囊霉属(Gigaspora)3种。其中以黑球囊霉(Glomus melanosporum)和双网无梗囊霉(Acaulospora bireticulata)为优势种群,并且发现了与寄生有关的巨孢囊霉属AM真菌。6月份和8月份的AM真菌孢子数量最多,而5月份的AM真菌孢子数量最低。6月份梭梭根际土壤提取液得到的肉苁蓉种子萌发率(65.94%)和田间接种寄生率(59.19%)均为最高值,而5月份土壤提取液测试得到的肉苁蓉种子萌发率最低。因此,推测梭梭根际AM真菌可能参与了肉苁蓉的寄生过程。相关分析表明梭梭根际土壤微生物种类和数量主要与土壤温湿度和土壤理化性质相关性较大,其中可能与寄生有关的真菌数量与土壤温度呈显著正相关;肉苁蓉寄生率与土壤温度及土壤养分呈显著负相关。研究为解析梭梭根际土壤微生物在肉苁蓉寄生过程中的作用以及指导肉苁蓉人工种植提供参考。     

列当寄生对不同品种向日葵幼苗生长及抗氧化酶活性的影响

采用连作重茬含向日葵列当的土壤,进行不同列当抗性向日葵品种苗期盆栽试验,调查播种后第30、50和70天向日葵幼苗根系列当的寄生率、幼苗地上部和地下部干物质量及株高,并测定其叶片丙二醛(MDA)、苯丙氨酸解氨酶(PAL)、超氧化物歧化酶(SOD)、过氧化物酶(POD)和过氧化氢酶(CAT)活性。结果表明:不同向日葵品种苗期对列当抗性明显不同,其中油葵品种‘T012244’和‘MGS’对向日葵列当寄生免疫,‘S31’和‘白杂9号’为高抗,而‘星火大白边’和‘白杂6号’为敏感。列当寄生后明显抑制敏感品种向日葵幼苗生长,而对免疫品种和高抗品种的影响较小。列当寄生后的敏感性品种‘星火大白边’幼苗叶片MDA含量迅速上升,PAL活性也大幅度增加,列当对幼苗生长伤害加重;而苗期免疫品种"T012244"和高抗品种"S31"MDA含量下降,PAL活性则变化不大。随接种时间延长,不同抗性向日葵品种苗期SOD、POD和CAT活性均呈现先升高后降低的变化趋势,且免疫品种的保护酶活性变化幅度大于敏感品种,说明列当寄生对敏感向日葵品种造成了逆境胁迫,诱导其幼苗叶片保护酶系统产生防御响应。     

Predicting the suitable habitats of parasitic desert species based on a niche model with Haloxylon ammodendron and Cistanche deserticola as examples

Haloxylon ammodendron, an excellent tree species for sand fixation and afforestation in the desert areas of western China, is threatened by climate change and anthropogenic activities. The suitable habitat of this species is shrinking at a remarkable rate, although conservation measures have been implemented. Cistanche deserticola is an entirely parasitic herb that occurs in deserts, is a source of “desert ginseng” worldwide, and has extremely high medicinal value. Little is known about using niche models to simulate habitat suitability and evaluate important environmental variables related to parasitic species. In this study, we modeled the current suitable habitat of H. ammodendron and C. deserticola by MaxEnt based on occurrence record data of the distributions of these two species in China. We grouped H. ammodendron and C. deserticola into three groups according to the characteristics of parasitic species and modeled them with environmental factors. The results showed that bioclimate was the most important environmental parameter affecting the H. ammodendron and C. deserticola distribution. Precipitations, such as annual precipitation, precipitation seasonality, and precipitation in the driest quarter, were identified as the most critical parameters. The slope, diurnal temperature range, water vapor pressure, ground‐frost frequency, and solar radiation also substantially contributed to the distribution of the two species. The proportions of the most suitable areas for Groups 1, 2, and 3 were 1.2%, 1.3%, and 1.7%, respectively, in China. When combined with cultural geography, five hot spot conservation areas were determined within the distribution of H. ammodendron and C. deserticola. The comprehensive analysis indicated that by using MaxEnt to model the suitable habitat of parasitic species, we further improved the accuracy of the prediction and coupled the error of the distribution of a single species. This study provides a useful reference for the protection of H. ammodendron forests and the management of C. deserticola plantations.     

Construction and differential screening of a cDNA library specific to osmotic stress of Haloxylon ammodendron seedlings

A subtracted cDNA library specific to osmotic stress of Haloxylon ammodendron (Mey.) Bge seedlings was constructed by suppression subtractive hybridization (SSH) and T/A cloning. SSH was performed between two groups of H. ammodendron seedlings, one was cultivated in Hoagland (H) solution as a driver and the other group was treated with osmotic stress of the Hoagland solution by the addition of 400 mM mannitol (M), as a tester. The library consisted of about 400 recombinant clones, with the average size being of 500 bp, ranging from 300 bp to 1500 bp. Using a PCR-select differential screening kit, 100 recombinant clones were randomly chosen from the subtracted cDNA library and hybridized with forward, reverse subtracted and unsubtracted probes for two rounds. As a result, 21 positive clones specific to osmotic stress were obtained and some of them were verified by Northern blot analysis. The sequencing analysis of 6 positive clones and the following homology comparison to GenBank [blastx] non-redundant databases characterized that two sequences obtained in this experiment may contribute to novel drought-related genes.     

水分胁迫对黄檗幼苗保护酶活性及脂质过氧化作用的影响

以轻度干旱、重度干旱和水涝处理黄檗幼苗,测定丙二醛(MDA)和游离脯氨酸含量及超氧化物歧化酶(SOD)、过氧化物酶(POD)和过氧化氢酶(CAT)活性的动态变化.结果表明,处理40 d以后,轻度干旱、重度干旱和水涝处理的叶片MDA含量始终显著高于对照,最高分别达对照的2.9、2.37和4.12倍,三者之间在处理80 d以后MDA含量差异不显著.水涝处理和对照的游离脯氨酸含量在处理期间没有明显变化,干旱处理的游离脯氨酸含量从处理后40 d开始增加、80 d后回落,重度干旱处理的增加幅度显著大于轻度干旱处理.SOD、POD和CAT活性的变化趋势缺乏一致性,但重度干旱处理的黄檗幼苗,叶片的SOD、POD和CAT活性在处理期间始终显著高于轻度干旱、水涝处理和对照.     

Effects of increasing root carbon investment on the mortality and resprouting of Haloxylon ammodendron seedlings under drought

• Tree mortality induced by drought is one of the most complex processes in ecology. Although two mechanisms associated with water and carbon balance are proposed to explain tree mortality, outstanding problems still exist.
• Here, in order to test how the root system benefits survival and resprouting of Haloxylon ammodendron seedlings, we examined the various water‐ and carbon‐related physiological indicators (shoot water potential, photosynthesis, dark respiration, hydraulic conductance and non‐structural carbohydrates [NSC]) of H. ammodendron seedlings, which were grown in drought and control conditions throughout a grow season in greenhouse.
• The survival time of the seedling root system (died 70 days after drought) doubled the survival time of the shoot (died at 35 days). Difference in survival time between shoot and root resulted from sustained root respiration supported by increased NSC in roots under drought. Furthermore, investment into the root contributed to resprouting following drought. Based on these results, a death criterion is proposed for this species. The time sequence of major events indicated that drought shifted carbon allocation between shoot and root and altered the flux among different sinks (growth, respiration or storage). The interaction of water and carbon processes determined death or survival of droughted H. ammodendron seedlings.
• These findings revealed that the ‘root protection’ strategy is critical in determining survival and resprouting of this species, and provided insights into the effects of carbon and water dynamics on tree mortality.

     

Complete Chloroplast Genome Sequence of Holoparasite Cistanche deserticola (Orobanchaceae) Reveals Gene Loss and Horizontal Gene Transfer from Its Host Haloxylon ammodendron (Chenopodiaceae)

Background

The central function of chloroplasts is to carry out photosynthesis, and its gene content and structure are highly conserved across land plants. Parasitic plants, which have reduced photosynthetic ability, suffer gene losses from the chloroplast (cp) genome accompanied by the relaxation of selective constraints. Compared with the rapid rise in the number of cp genome sequences of photosynthetic organisms, there are limited data sets from parasitic plants.

Principal Findings/Significance

Here we report the complete sequence of the cp genome of Cistanche deserticola, a holoparasitic desert species belonging to the family Orobanchaceae. The cp genome of C. deserticola is greatly reduced both in size (102,657 bp) and in gene content, indicating that all genes required for photosynthesis suffer from gene loss and pseudogenization, except for psbM. The striking difference from other holoparasitic plants is that it retains almost a full set of tRNA genes, and it has lower dN/dS for most genes than another close holoparasitic plant, E. virginiana, suggesting that Cistanche deserticola has undergone fewer losses, either due to a reduced level of holoparasitism, or to a recent switch to this life history. We also found that the rpoC2 gene was present in two copies within C. deserticola. Its own copy has much shortened and turned out to be a pseudogene. Another copy, which was not located in its cp genome, was a homolog of the host plant, Haloxylon ammodendron (Chenopodiaceae), suggesting that it was acquired from its host via a horizontal gene transfer.     

叶绿酸铁对亚适温条件下黄瓜幼苗渗透调节物质及抗氧化酶活性的影响

以黄瓜品种“津研四号”为试材,利用光照培养箱进行亚适温处理(昼/夜18/12 ℃),研究亚适温条件下喷施5 mg·L^-1叶绿酸铁溶液对黄瓜幼苗生长、脯氨酸、可溶性糖、丙二醛含量及抗氧化酶活性的影响.结果表明: 亚适温条件下叶面喷施叶绿酸铁可以缓解亚适温对黄瓜生长的抑制,增加叶片中脯氨酸和可溶性糖含量,减少丙二醛含量,提高超氧化物歧化酶、过氧化物酶、过氧化氢酶及抗坏血酸过氧化物酶活性.喷施叶绿酸铁在一定程度上可通过促进渗透调节物质的积累和提高抗氧化酶活性,来降低膜脂质过氧化水平,从而增强黄瓜幼苗对亚适温的适应性.     

盐碱胁迫对柳树幼苗生长和渗透调节物质含量的影响

以盐柳1号为试验材料,将2种中性盐NaCI、Na_2SO_4和2种碱性盐NaHCO_3、Na_2CO_3,按不同比例混合成A(NaCl∶Na_2SO_4∶NaHCO_3∶Na_2CO_3=1∶2∶1∶0)、B(NaCl∶Na_2SO_4∶NaHCO_3∶Na_2CO_3=1∶9∶9∶1)、C(NaCl∶Na_2SO_4∶NaHCO_3∶Na_2CO_3=1∶1∶1∶1)3种组合,设4个浓度梯度(50、100、150、200 mmol/L),模拟出12种盐度和碱度各不相同的盐碱条件,对盐柳1号幼苗进行处理,测定了株高生长量、丙二醛(MDA)含量、脯氨酸含量和可溶性糖含量4项指标。结果表明:随着盐浓度的增大和碱性盐比例的增高,盐柳1号幼苗的株高生长量呈降低趋势,叶片MDA、脯氨酸和可溶性糖含量则有不同程度的升高。A、B、C处理组的株高生长量在盐浓度200 mmo/L时分别相对CK降低了61.32%、68.67%、73.02%,差异均达到显著水平(P0.05)。A处理组(pH值为8.04),随着盐浓度的增大,叶片MDA、脯氨酸和可溶性糖含量升高趋势不明显;B处理组(pH值为8.66),叶片MDA含量在盐浓度超过100 mmol/L时呈显著升高趋势,脯氨酸和可溶性糖含量在盐浓度超过150 mmol/L时急剧增加;C处理组(pH值为9.47),盐浓度大于150 mmol/L时,盐柳1号幼苗的叶片全部枯黄。综合分析结果表明,在混合盐碱胁迫下,盐柳1号幼苗的生长受到了不同程度的抑制;盐柳1号可以耐受不超过100 mmol/L的3种组分盐碱胁迫,且盐浓度150 mmol/L、pH9.51的盐碱条件不适宜盐柳1号的生长。     

Effects of seed dressing with imidacloprid on the seedlings growth and protective enzyme activities of high-yielding summer maize

A field plot experiment was conducted to study the effects of seed dressing with imidacloprid at the pesticide/seed mass ratios of 6:10000, 9:10000, and 12:10000 on the seedlings growth and protective enzyme activities of high-yielding summer maize. Seed dressing with an imidacloprid/seed mass ratio of 6:10000 increased the seedlings height, primary root length, secondary root number, aboveground fresh mass, and underground fresh mass by 2.81 cm, 2.31 cm, 1.71, 0.30 g, and 8.28 g, respectively, as compared to the control, and had better effect than the treatments 9:10000 and 12:10000. Comparing with the control, treatment 6:10000 increased the leaf- and root soluble protein content by 12.6% and 27.9% and catalase (CAT) activity by 2.5% and 11.5%, decreased malondialdehyde (MDA) content by 26.3% and 60.9%, improved superoxide dismutase (SOD) activity by 19.7% and 5.6%, enhanced glutathione-S-transferase (GSTs) activity by 11.5% and 13.2%, respectively, and increased the root peroxidase (POD) activity by 31.8%. Seed dressing with imidacloprid at the pesticide/seed mass ratio of 6:10000 could markedly improve maize seedlings protective enzyme activities, but had no promotion effect on leaf peroxidase (POD) activity.