改进马尾松育苗方法的试验

对马尾松采用控制苗木密度、芽苗截根移栽和接种菌根菌等技术进行育苗试验，结果表明：苗木密度应控制在１５０株／ｍ２，芽苗截根以保留主根长度１／２为宜；采用厚环乳牛肝菌进行人工接种效果较好。     

西府海棠幼苗根内可溶性糖含量对VA菌根侵染的影响

为研究根内可溶性糖含量对ＶＡ菌根侵染的影响,以西府海棠幼苗为试材,进行摘叶和环割处理,采用酸性品红染料－方格交叉法测定力根侵染率,滴定法测定每处理叶片和根系中可溶性糖含量。结果表明,接种处理苗高,茎叶和根系鲜重均显著高于不接种处理;环割和摘叶处理降低了根内可溶性糖含量,且菌根侵染率随根内可溶性糖含量的降低而降低。     

草本植物根系对边坡浅层稳定性影响研究

为研究草本植物根系对边坡浅层稳定性的影响,在假设滑坡体为长方体的条件下,通过对植物根系加固边坡的力学原理进行分析,推导了植物根系对边坡浅层稳定性的安全系数公式,并计算分析了坡度、滑坡体尺寸以及根土面积比对边坡稳定性的影响。结果表明:随着边坡坡度及滑坡体尺寸的增加,边坡的稳定系数将减小。并且,植物护坡的坡体安全系数要大于无防护坡体的安全系数。随着根-土面积比的增大,坡体的稳定系数逐渐增加,说明植物根系能增加边坡的稳定性。     

铀尾矿库茅草植物根系发育的分形特征

研究了非线性科学中的分形几何理论,并将其应用到植物根系发育的结构上,对铀尾矿库上采集的茅草（Lemongrass）植物根系分形特征进行了研究。用FractalFox软件计算了植物根系的分形维数,结果发现：这种植物根系分维数都介于1．3305～1．5214之间,说明这种植物根系分形特征明显。实验中还发现生长在水环境旁的根系分维数明显高于在干燥环境下的根系分维数,说明湿润的环境能促进植物根系发育。     

苦参毛状根的诱导培养及氧化苦参碱含量的测定

本文主要利用三种发根农杆菌A4、15834、R1601诱导苦参产生毛状根,初步为建立苦参的毛状根培养体系提供参考。本实验采用共培养法,考察了不同外植体、菌种、培养时间对苦参毛状根诱导率的影响,并对苦参毛状根中氧化苦参碱进行初步的含量测定。研究结果表明,苦参毛状根的最佳诱导条件是以生长1周的苦参幼芽为外植体,R1601为菌株,添加100μmol/l的乙酰丁香酮,侵染20 min,(25±1)℃暗处诱导,最终测定诱导率最高为27.6%,存活率为45.8%,而苦参毛状根中氧化苦参碱的富集量为1.68mg/g(苦参毛状根干重),未检测到苦参碱。     

Contribution of Adventitious Roots to Water Use Strategy of Juniperus sabina in a Semiarid Area of China

duniperus sabina Linnaeus, an evergreen shrub with prostrate life form, can effectively prevent sand moving and is an important tree species for reforestation in semiarid areas of China. It has laterally distributed adventitious roots and a deeply distributed main root system. To detect water movement between the main root system and adventitious roots, we adopted heat pulse sensors using the Heat Ratio Method, a high precision method for measuring low sap flow rates. Two sensors were implanted in each individual in the stem between the main root system and adventitious roots, and another two in lateral stems distal to all the roots. Positive sap flows during nighttime, even under saturated air moisture conditions, were detected only between the main root system and adventitious roots under drought conditions, and the rate of flow increased as drought progressed and decreased or disappeared after rain events. The results demonstrated the existence of water movement from the main root system to adventitious roots, and combined with the high contribution of nighttime sap flow to transpiration （11%-16%） the results indicate that it also involves the process of hydraulic lift, a water movement from moist subsoil to dry surface soils. Integrated water use strategy between the main root system and adventitious roots via the process of hydraulic lift of soil water maximizes water acquisition efficiency from both subsoil water and water from rain pulses on the soil surface; this increases survivability in the water-limited environment of semiarid areas.     

钙过量对茶树新梢品质成分及根系生长的动态影响

以平阳特早一年生茶树幼苗为试验材料,设置90、150、210、270 mg/L Ca2+浓度进行钙过量水培培养,研究其对茶树幼苗、新梢主要品质成分的动态影响,同时测定了根系形态的动态变化.结果表明,钙过量处理前2周,茶多酚含量在较低钙过量(90、150 mg/L)条件下增加,这可能是茶多酚作为抗氧化剂对钙过量胁迫的抗性;氨基酸含量从第三周开始表现出下降,且随着处理时间的增加,下降幅度越大;咖啡碱含量处理第一周即出现下降,随着处理时间的增加,下降幅度增大.钙过量对根系的伤害主要表现在根尖数减少和较高Ca2+浓度(210、270 mg/L)条件下,根系表面会附着一层白色黏膜抑制新根的生长.钙过量处理可直接造成茶树根系吸收根的衰亡,进而逐步影响到茶树新梢品质成分的合成.     

基于形态参数的水稻根系三维建模及可视化

构建基于形态特征参数的水稻根系几何模型,实现不同生长条件下水稻根系生长动态的三维可视化。本文通过分析水稻根尖生长随生育进程的变化模式,构建了水稻单根三维显示模型,包括根节点初始位置和生长方向的确定以及根轴的空间模拟等;进一步结合水稻根系拓扑结构,以生长度日（GDD）为驱动因子,建立了水稻根系三维重构模型,包括不定根初始发生时间和位置、不定根初始伸展角度、不定根伸长速率、不定根空间分布模型等;然后在Visual C++环境下,结合可视化显示模块、场景控制模块、人机交互界面和数据库模块等,研制了水稻根系三维可     

滇黄芩毛状根的诱导及其黄芩苷含量测定

本文利用发根农杆菌A grobacterizum rhizogenes1.2556感染滇黄芩再生苗的茎段和叶片,建立了毛状根培养及其植株再生体系。毛状根可直接从受伤的茎、叶外植体表面产生,在无外源激素的MS固体和液体培养基上自主生长,表现出典型的发根特征。毛状根茎段的诱导率较叶片高,最高可达到14.44%;经rolB基因PCR分析和甘露碱纸电泳检测,证明Ri质粒T-DNA已整合到滇黄芩基因组中并表达;毛状根在附加6-BA2mg/L和NAA0.2mg/L的MS固体培养基上直接诱导不定芽,并在MS培养基上生根,形成再生植株。获得的毛状根系经MS液体培养基培养30d后通过HPLC都能检测到黄芩苷,其中1个转化系黄芩苷含量为2.59%,是药材黄芩的0.20倍,而从3年单位时间黄芩苷生成量计算,毛状根是药材黄芩的7.18倍。本研究建立的毛状根培养体系,将对滇黄芩转基因技术的完善和利用毛状根生产黄芩苷的生物转化提供了实验基础。     

Negligible contribution from roots to soil-borne phospholipid fatty acid fungal biomarkers 18:2ω6,9 and 18:1ω9

The phospholipid fatty acid biomarkers 18:1ω9, 18:2ω6,9 and 18:3ω3,6,9 are commonly used as fungal biomarkers in soils. They have, however, also been found to occur in plant tissues, such as roots. Thus, the use of these PLFAs as fungal biomarkers in sieved soil, which may still contain small remains of roots, has been questioned. We used data from a recent beech tree girdling experiment to calculate the contribution of roots to these biomarkers and were able to demonstrate that not more than 0.61% of 18:1ω9 and 18:2ω6,9 in sieved soil samples originated from roots (but 4% of 18:3ω3,6,9). Additionally, the abundance of the biomarker 18:2ω6,9 in the soil was found to be highly correlated to ectomycorrhizal root colonization, which further corroborates its fungal origin. PLFA biomarkers were substantially reduced in vital roots from girdled trees compared to roots of control trees (by up to 76%), indicating that the major part of PLFAs measured in roots may actually originate from ectomycorrhizal fungi growing inside the roots. We calculated, that even a near to 50% reduction in fine root biomass - as observed in the girdling treatment - accounted for only 0.8% of the measured decrease of 18:2ω6,9. Our results demonstrate that both 18:1ω9 and 18:2ω6,9 are suitable biomarkers for detecting fungal dynamics in soils and that especially 18:2ω6,9 is a reliable biomarker to study mycorrhizal dynamics in beech forests.