农林复合系统滇龙胆茎叶化学计量特征研究

以农林复合系统种植的滇龙胆(Gentiana rigescens Franch.ex Hemsl.)为材料,采用高效液相色谱法建立不同栽培系统滇龙胆茎、叶的色谱指纹图谱,并测定其主要活性成分马钱苷酸、獐牙菜苦苷、龙胆苦苷和当药苷含量,研究不同栽培系统滇龙胆茎、叶化学计量特征。采用相关性分析、指纹图谱相似度分析、偏最小二乘判别分析(PLS-DA)、变量投影重要性准则(VIP)等方法进行化学数据分析。结果显示,滇龙胆主要活性成分马钱苷酸含量为(1.85±0.92)mg/g~(7.43±7.64)mg/g,獐牙菜苦苷含量为(1.03±0.17)mg/g~(1.58±0.50)mg/g,龙胆苦苷含量为(15.28±11.34)mg/g~(24.59±7.84)mg/g,当药苷含量为(4.10±1.64)mg/g~(31.67±22.70)mg/g,且叶片中4种活性成分的总含量高于茎;不同栽培系统中,与尼泊尔桤木间作的滇龙胆茎、叶活性成分总含量最高,而与核桃间作的滇龙胆茎、叶活性成分总含量最低。相关性分析显示,植株相同部位和不同部位间的环烯醚萜和裂环烯醚萜含量呈显著(P0.05)或极显著(P0.01)正相关。指纹图谱相似度分析表明,不同栽培系统滇龙胆茎指纹图谱相似度介于0.989~0.992之间、叶指纹图谱相似度为0.988~0.996,相同部位样品化学成分种类相似。PLS-DA分析结果表明,茎和叶片整体化学计量特征具有明显差异;单作及林药间作的样品被区分为不同类群,不同间作模式下滇龙胆茎、叶化学成分具显著差异,叶片高效液相色谱指纹图谱可用于区分不同栽培系统滇龙胆样品。本研究结果可为农林复合系统滇龙胆有效成分含量研究及滇龙胆资源的合理开发利用提供科学依据。     

云南道地药材滇龙胆资源调查与评价

滇龙胆为云南重要道地药材,通过走访和实地调查对云南省38个县市龙胆资源分布范围及资源现状进行调查。结果表明,滇龙胆在云南省除昭通、德钦和西双版纳外,均有分布,适宜生境为海拔1350～2500m的荒坡或林下。所测种群滇龙胆根粗为0.33～0.44cm,根长7.03～19.79cm,根数为6.34～19.40,根生物量为0.27～1.40g,根中龙胆苦含量为3.56%～5.99%。聚类分析结果显示,除玉溪、昆明、楚雄等产区外,文山、怒江种群滇龙胆质量也较好,具较高开发、利用价值。目前野生滇龙胆生境遭到破坏,资源量锐减,亟待保护,本研究调查为云南滇龙胆资源的保护与利用提供建议和基础数据。     

野生和栽培滇龙胆草生物量分配及异速生长

植物地上-地下生物量分配反映了植物的生长策略。草本植物地上-地下生物量是否是等速生长还有争论。养分和密度会影响药用植物地上-地下生物量的分配。本研究比较了野生和栽培滇龙胆草地上-地下生物量分配的差异,分析了栽培年限和密度对栽培滇龙胆草生物量分配的影响。结果表明,野生与栽培滇龙胆草地上-地下生物量分配存在显著差异(P0.05),可能与土壤营养水平和竞争强度有关,但地下生物量和地上生物量为近等速生长关系。密度、密度与生长年限的交互作用均对地下生物量有显著影响(P0.05)。滇龙胆草栽培时需控制密度并研究施肥和土壤微生物等因素对其药用部位产量(地下生物量)的影响。     

3种间作植物对薄皮甜瓜植株生长、营养吸收和果实品质的影响

为解决薄皮甜瓜生产中的连作障碍问题,设置薄皮甜瓜单作(MM)、茴香/薄皮甜瓜间作(FM)、分蘖洋葱/薄皮甜瓜间作(TM)、艾草/薄皮甜瓜间作(WM)4个处理,研究不同间作植物对薄皮甜瓜植株株高、茎粗、根系活力和矿质元素(N、P、K、Ca和Mg)含量,以及果实品质和产量的影响,以期筛选出具有间作优势的露地栽培薄皮甜瓜间作作物组合。结果表明: 随着间作栽培时间的延长,3个间作处理的薄皮甜瓜株高均显著高于单作对照;FM和TM处理的茎粗显著高于单作对照,WM处理的茎粗与单作对照差异不显著;在伸蔓期、坐果期和果实膨大期,FM处理的根系活力最高,显著高于单作对照和TM处理。3个间作处理薄皮甜瓜植株矿质元素含量均不同程度高于单作对照,且FM处理的矿质元素含量均较高。FM和TM间作处理单果重与单作对照差异不显著。FM处理果实品质指标不低于单作对照;WM和TM处理的部分果实品质指标(葡萄糖、果糖和蔗糖含量)低于单作对照。综上,小茴香较适合作为薄皮甜瓜的间作植物。     

滇龙胆不同部位裂环烯醚萜类物质含量比较分析

采用高效液相色谱法,对云南临沧云县滇龙胆不同部位龙胆苦苷、獐牙菜苦苷、当药苷含量进行分析.结果显示:(1)龙胆苦苷、獐牙菜苦苷、当药苷在滇龙胆根、茎、叶、花中均有分布;龙胆苦苷、獐牙菜苦苷在根部含量较高,分别为(35.88±5.89)mg/g和(1.35±0.33)mg/g;当药苷在花部含量最高,为(0.97±0.24)mg/g.(2)不同部位有效成分间具有显著(P<0.05)或极显著(P<0.01)的相关性.(3)相同海拔条件下,不同栽培方式下滇龙胆根部龙胆苦苷含量差异不显著(P>0.05),但茎部、叶部獐牙菜苦苷含量差异显著(P<0.05).     

红外光谱技术在滇龙胆栽培方式选择上的应用

该研究采用傅里叶变换红外光谱结合化学计量学,对条播、撒播、剪根后移栽、扦插和剪枝后移栽的滇龙胆进行了分析,以筛选滇龙胆的最佳栽培方式。结果表明:(1)不同栽培方式的滇龙胆原始谱图在峰形、峰位和峰强上有一定差异;用小波去噪法对光谱进行优化处理并进行偏最小二乘判别分析(Partial least squares discriminant analysis,PLS-DA),能较好地区分不同栽培方式的滇龙胆样品,PLS-DA二维得分图显示同一栽培方式的样品聚在一起,表明相同栽培方式的滇龙胆化学组成和含量差异较小;播种滇龙胆样品(条播和撒播)距离较近,移栽滇龙胆样品(剪根、扦插和剪枝)距离较近,而播种和移栽滇龙胆样品距离较远,表明栽培方式对滇龙胆化学成分的积累有影响。(2)滇龙胆四种主要成分总含量大小依次是剪枝剪根撒播条播扦插,除剪根后移栽,剪枝后移栽滇龙胆中四种主要成分总含量显著高于其他栽培方式下的滇龙胆(P0.05),剪枝后移栽滇龙胆质量最佳。(3)以液相数据为参考值,采用正交信号校正—偏最小二乘回归模型预测不同栽培模式滇龙胆中龙胆苦苷、马钱苷酸、獐牙菜苦苷和当药苷的含量。校正集和验证集的决定系数(R2)均大于0.90,校正均方根误差、交叉验证均方差和预测均方根误差均小于1.65,模型相关性和预测效果好,该方法对红外光谱分析在中药领域的推广应用提供了参考。     

滇龙胆与青叶胆环烯醚萜类物质计量特征分析

龙胆科龙胆属滇龙胆(Gentiana rigescens)与獐牙菜属青叶胆(Swertia mileensis)为我国特有种。采用高效液相色谱法测定其中马钱苷酸、獐牙菜苦苷、龙胆苦苷和当药苷含量,结合多变量分析研究环烯醚萜类成分含量及其构成比例在龙胆科植物种内和种间的差异。研究结果显示,4种环烯醚萜类成分的计量特征呈现种间差异,依据环烯醚萜类成分含量及其构成比例,所有滇龙胆样品可分为4类。马钱苷酸含量与纬度呈极显著负相关(R=-0.348,P0.05),与海拔呈极显著正相关(R=0.307,P0.01);獐牙菜苦苷含量与经度呈极显著负相关(R=-0.592,P0.01),高海拔有利于植株中当药苷构成比例的增加(R=0.245,P0.05);地理因子对植株中龙胆苦苷含量变化影响不显著(P0.05)。     

粗茎秦艽不同部位龙胆苦甙含量的分析

采用高压液相法分析了栽培粗茎秦艽不同部位的有效药用成分龙胆苦甙(gentiopicrin)的含量,并与野生麻花秦艽、达乌里秦艽龙胆苦甙的含量相比较。结果表明粗茎秦艽根、茎、叶均具有较高的开发利用价值,为合理开发利用粗茎秦艽提供了科学依据。     

长江口九段沙湿地海三棱藨草生物量分配特征及其影响因子

海三棱藨草(Scirpus mariqueter)为长江河口盐沼湿地先锋植物。以长江口九段沙湿地为主要研究区域,在江亚南沙、上沙、中下沙等不同区域设置固定站点,进行植被和环境因子的取样调研,分析研究了海三棱藨草的生物量分配特征及其主要影响因子,以期为海三棱藨草的培育与恢复、盐沼湿地生态系统的保护与利用提供科学依据。结果表明:(1)不同站点海三棱藨草的茎基高度、球茎生物量占比、根茎与球茎之比均不存在显著差异(P0.05),而植株密度、植株高度、根茎生物量占比、果实生物量占比、茎叶生物量占比、须根生物量占比、果实与根茎之比、果实与球茎之比在不同站点间存在显著差异(P0.05);(2)不同站点的沉积物电导率、盐度、容积密度(5—10、25—30 cm土层)、总碳含量(10—15、20—25、25—30 cm土层)、总氮含量(5—10 cm土层)存在显著差异(P0.05);(3)海三棱藨草的果实与根茎的生物量之比和沉积物5—10、25—30 cm总碳含量,0—5、5—10 cm总氮含量,0—5 cm容积密度,茎基高度6种因子的组合存在极显著相关(P0.01);而其他生物量分配指标与本文涉及到的环境因子、植物表形参数均不存在显著相关性(P0.05)。海三棱藨草生物量分配特征是其自身生长特征与环境因子综合作用的结果。在今后的研究中需拓展生境因子涵盖范围,深入分析多因子综合作用对海三棱藨草生物量分配特征的影响。     

塑料大棚渗灌灌水下限对番茄生长和产量的影响

利用土壤水分张力计监测土壤水分吸力的变化,以灌水时30cm土层的土壤水分吸力表示渗灌灌水下限,研究灌水下限为10、16、25、40和63kPa时对塑料大棚番茄生长和产量的影响．结果表明,番茄株高、生物量分别随灌水下限的增大而减小．番茄的产量和水分利用率与灌水下限间的关系曲线为抛物线,而茎粗／株高比与灌水下限间的关系曲线为三次多项式曲线．灌水下限不同,番茄的根／冠比(R／S)动态不同,番茄根系与株冠的生长状况不同．灌水下限在25～33kPa时,番茄植株生长健壮,根冠比例协调,产量大,水分利用率高．此指标作为渗灌灌水下限,灌水时土壤水分的含量比常规灌水低,灌水次数少,有利于提高保护地番茄栽培的水分利用率和劳动生产率．     

Effects of intercropping with persimmon on the rhizosphere environment of tea

The rhizosphere environment of tea (Camellia sinensis Kuntze) intercropped with persimmon (Diospyros kaki) differs from monocultures of tea. A trial was conducted to determine the effects of intercropping with persimmon on root exudates and soil nutrient condition of tea. Amino acid exuded in intercropping was three times higher than that in monoculture. Phenol, phenol/amino acid ration, dissolved sugar, and total organic acid were also lower in intercropping. The value of pH in soil was higher, and soil nutrient condition of rhizosphere, especially available nutrient, was not as well in intercropping as that in tea grown alone. While soil nutrient of non-rhizosphere was better than that in monoculture, tea quality and soil nutrient condition were better in intercropping ecosystem. __________ Translated from Journal of Southwest China Normal University (Natural Science), 2005, 30(4): 715–718 [译自: 西南师范大学学报 (自然科学版), 2005, 30(4): 715–718]     

不同根系分隔方式对栗和茶幼苗生长的影响

研究不同根系分隔方式对栗(Castanea mollissima)/茶(Camellia sinensis)间作地下部分相互作用和植物种间互作动态的影响, 探究根系互作对植株株高、基径和根系生长的影响, 可为栗/茶复合经营模式的可持续发展提供科学指导。该研究以栗/茶间作和相应单作为研究对象, 运用盆栽实验的根系分隔技术(塑料膜分隔、尼龙网分隔和不分隔), 分别利用logistic生长模型模拟栗和茶株高与基径生长动态过程, 利用幂函数研究株高-基径的异速生长关系, 并从细根发育角度分析地下部分相互作用对植物生长发育的影响。结果显示: 与单作茶相比, 间作茶塑料膜分隔方式地上部分、地下部分和总的干生物量以及根长、根表面积、根体积、分形丰度和直径为0.2-1.0 mm根的根长分别显著增加了357.1%、281.8%和345.2%以及74.3%、273.9%、244.8%、42.0%和382.4%。间作茶塑料膜分隔方式的株高渐进值比单作茶显著增加了30.9%, 尼龙网分隔方式的间作栗株高渐进值和基径渐进值比单作栗分别显著增加了21.9%和28.2%; 塑料膜分隔方式下间作茶株高达到最大增长速率的时间和间作栗的基径达到最大增长速率的时间比相应单作模式分别显著延迟了14和15天。不同处理中栗和茶的株高-基径异速生长均呈显著线性正相关关系, 且不分隔方式下间作栗和间作茶的株高-基径异速生长模型的斜率均表现为最小, 且均<1。结果表明, 栗和茶间作时, 栗地上部分通过遮阴促进茶幼苗侧根分枝数、细根根长和株高的生长来增加其干生物量累积, 但地下部分则表现为竞争作用, 且随着地下部分竞争作用的强度增加会逐渐抵消地上部分的促进作用, 最终植物种间相互作用表现为中性作用。     

Early growth and nutritional response to resource competition in cocoa-shade intercropped systems

Intercropping is often promoted for effective mutualism between species, thus compensating for external inputs. However, for optimal farm design resulting in superior production and nutrition, an accurate assessment of plant inter- and intra-specific competition is required. In predominant shade tree-cocoa (Theobroma cacao) systems, inconclusive evidence remains on species interactions, limitations to resource availability and subsequent growth and nutritional response, particularly in early growth. We examined cocoa biomass and foliar nutrition as well as nutrient supply through rates of decomposition and N mineralization after 1-year growth. Our approach employed fertilization and mixed planting treatments in an additive design of cocoa in monoculture (control), under artificial shade, and intercropped under two separate shade species (Terminalia superba and Newbouldia laevis). Intercropping had no effect on cocoa biomass production in comparison to monoculture cocoa. However, artificial shading stimulated foliage and root production both with and without fertilization, suggesting strong effects of light regulation on growth in the absence of belowground competition. Nutritionally, intercropping suppressed K uptake in cocoa foliage as K concentration was reduced by 20–25%, signifying dilution of this nutrient, presumably due to interspecific competition for mobile elements. Foliar N content under N. laevis was raised, where N concentration kept up with growth under this intercropped species. Intercropping also delayed decomposition rates, suggesting slower but sustained release of available nutrients into the topsoil. Cocoa under artificial shade, both with and without fertilization, exhibited the greatest nutrient responses as compared to unfertilized monoculture cocoa, where P uptake was stimulated most (175 and 112%), followed by K (69 and 71%), and then N (54 and 42%). Intercropping with shade trees failed to increase cocoa biomass, however, nutrient uptake was sustained for N and P, suggesting low interspecific competition. When fertilizers are undesirable or unavailable, intercropping of appropriately selected shade trees will not competitively suppress early growth of cocoa but will improve light regulation and nutritional status of cocoa saplings.     

Estimating root biomass in Salix viminalis × Salix schwerinii cultivar “Olof” using the electrical capacitance method

Abstract

Non‐destructive assessment of root systems is important in order to understand and optimise the potential of resource capture and allocation by the plant. We studied the relationships between electrical capacitance (EC) and the below‐ and above‐ground biomass of willows. Cuttings of Salix viminalis × Salix schwerinii cv. Olof were maintained in pots and root development was followed up using a portable capacitance meter over the course of 2.5 months. Pot observations were compared with excavation of two‐year‐old established trees. A strong significant linear relationship (R ² = 0.81, p < 0.001) was obtained between EC and root biomass (dry weight [DW]) for the pot experiment. EC also showed good correlations with stem and leaf biomass, as well as with stem height. In the excavated willow trees, there was a strong logarithmic relationship between EC and root biomass (R ² = 0.66, p < 0.001). These results suggest that EC is a good estimator of below‐ground biomass in willow and may become useful in screening varieties for differences in root biomass traits, especially in distinguishing below‐ground resource allocation at an early stage.     

色季拉山急尖长苞冷杉叶片及细根性状随海拔的变异特征

叶片和细根是植物对环境变化响应的主要功能器官,在气候变化趋势下,研究其随环境梯度的变化,对理解植物对环境的适应策略具有重要意义。本文是在色季拉山急尖长苞冷杉分布区,按海拔梯度(3800、3900、4000、4100、4200、4300、4400m)选择7个典型样地,在样地内对其叶片基本特征、叶绿素含量、比叶重和细根特征(0—60cm)等参数进行了测量。结果表明:(1)随海拔梯度升高,急尖长苞冷杉叶片叶面积减小、叶片厚度增加、叶绿素含量逐渐降低、比叶重显著增大。3900m处急尖长苞冷杉的叶片形态特征表现最好,叶片长度、宽度和面积均显著优于其他海拔,海拔4200m叶片厚度达到最大值,叶片面积、叶绿素含量随海拔升高呈下降趋势,但在4200m处出现第二峰值。(2)随海拔梯度增加,细根各性状与海拔表现出非线性关系,其中细根生物量和细根体积在3900m和4200m处出现两次峰值,3900m处细根生物量达到最大值,4200m处细根体积达到最大值,4400m处细根生物量和细根体积均显著少于其他海拔。细根根长密度在海拔3900、4200、4300m较高,三者之间差异不显著,但显著高于其余海拔,4400m海拔细根根长密度最小。细根表面积在3900m海拔处达到最大值,显著高于其他海拔,4200和4300m次之,3800、4000和4400m海拔下细根表面积相对较小。4400m处细根比根长达到最大值。各海拔上细根均主要分布在0—20cm土层。随土层厚度增加,各海拔细根生物量和根系体积在0—60cm土层范围内均逐渐减小;细根根长密度、表面积在20—40cm和40—60cm显著提高;同一海拔细根比根长随土层深度增加呈明显的增加趋势。各海拔40—60cm土层细根比根长显著高于20—40和0—20cm土层。(3)综合叶片及细根特征,海拔3900m为急尖长苞冷杉的最适宜生长区域;随海拔升高,环境因子逐渐恶劣,环境胁迫加剧,急尖长苞冷杉最终形成在4400m处为其分布上限的海拔梯度格局。     

Very fine roots respond to soil depth: biomass allocation,morphology, and physiology in a broad-leaved temperate forest

Very fine roots (<0.5 mm in diameter) of forest trees may serve as better indicators of root function than the traditional category of <2 mm, but how these roots will exhibit the plasticity of species-specific traits in response to heterogeneous soil nutrients is unknown. Here, we examined the vertical distribution of biomass and morphological and physiological traits of fine roots across three narrow diameter classes (<0.5, 0.5–1.0, and 1.0–2.0 mm) of Quercus serrata and Ilex pedunculosa at five soil depths down to 50 cm in a broad-leaved temperate forest. In both species, biomass and the allocation of very fine roots were higher in the surface soil but lower below 10-cm soil depth compared to values for larger roots (0.5–2.0 mm). When we applied these diameter classes, only very fine roots of Q. serrata exhibited significant changes in specific root length (SRL; m g⁻¹) and root nitrogen (N) concentrations with soil depth, whereas the N concentrations only changed significantly in I. pedunculosa. The SRL and root N concentrations of larger roots in the two species did not significantly differ among soil depths. Thus, very fine roots may exhibit species-specific traits and change their potential for nutrient and water uptake in response to soil depth by plasticity in root biomass, the length, and the N in response to available resources.     

Neighbouring monocultures enhance the effect of intercropping on the turnip root fly (Delia floralis)

Knowledge of insect behaviour is essential for accurately interpreting studies of diversification and to develop diversified agroecosystems that have a reliable pest‐suppressive effect. In this study, we investigated the egg‐laying behaviour of the turnip root fly, Delia floralis (Fall.) (Diptera: Anthomyiidae), in an intercrop‐monoculture system. We examined both the main effect of intercropping and the effect on oviposition in the border zone between a cabbage monoculture [Brassica oleracea L. var. capitata (Brassicaceae)] and a cabbage‐red clover intercropping system [Trifolium pratense L. (Fabaceae)]. To investigate the border‐effect, oviposition was measured along a transect from the border between the treatments to the centre of experimental plots. Intercropping reduced the total egg‐laying of D. floralis with 42% in 2003 and 55% in 2004. In 2004, it was also found that the spatial distribution of eggs within the experimental plots was affected by distance from the adjoining treatment. The difference in egg‐laying between monoculture and intercropping was most pronounced close to the border, where egg‐laying was 68% lower on intercropped plants. This difference in egg numbers decreased gradually up to a distance of 3.5 m from the border, where intercropped plants had 43% fewer eggs than the corresponding monocultured plants. The reason behind this oviposition pattern is most likely that flies in intercropped plots have a higher probability of entering the monoculture if they are close to the border than if they are in the centre of a plot. When entering the monoculture, flies can pursue their egg‐laying behaviour without being disrupted by the clover. As the final decision to land is visually stimulated, flies could also be attracted to fly from the intercropped plots into the monoculture, where host plants are more visually apparent. Visual cues could also hinder flies in a monoculture from entering an intercropped plot. Other possible patterns of insect attack due to differences in insect behaviour are discussed, as well as the practical application of the results of this study.     

Growth characteristics of Adiantum reniforme var. sinensis and A. capillus‐veneris in response to light and soil moisture

Adiantum reniforme var. sinensis (Adiantaceae) is an endangered fern endemic to the Three Gorges region in southwest China. To elucidate possible ecophysiological mechanisms restricting its distribution, effects of the availability of light (28%, 14% and 7% of open field) and soil moisture (60% and 40% of field capacity) on dry matter production and allocation, leaf morphology and water use efficiency (WUE) were examined in A. reniforme var. sinensis and its widespread congener A. capillus‐veneris. Both species had lower root/shoot ratio (R/S) and higher specific leaf area (SLA) when grown at low light. However, A. reniforme var. sinensis showed less plasticity for total leaf area (LA) and leaf area ratio (LAR) than A. capillus‐veneris, and its root mass, total mass and WUE decreased as light availability decreased. Under water stress, all traits of both species except WUE were significantly affected. However, drought stress decreased total mass of A. capillus‐veneris but did not have a significant effect on A. reniforme var. sinensis. Compared with A. capillus‐veneris, A. reniforme var. sinensis had significantly higher R/S but lower values for other analyzed traits. These results suggest that A. reniforme var. sinensis is relatively superior in drought tolerance but inferior at low light, allowing it to persist in habitats with low soil moisture and high light availability but with few coexisting species present.     

施肥对香樟幼苗生长及养分分配的影响

施肥是苗木培育的重要方式,香樟是乡土珍稀阔叶树种,苗木培育对乡土珍稀树种的保护、繁育、推广具有极其重要的作用,施肥对苗木的生长和发育具有重要的影响。因此,为了探讨香樟幼苗生长及植物体内养分分配对施肥的响应,该研究采用正交设计,设置了氮、磷、钾3因素3水平(N、P:0、3、6 g·株-1;K:0、2、4g·株-1),对盆栽香樟幼苗进行指数施肥。结果表明:(1)氮肥对香樟幼苗苗高、地径、生物量的影响最为显著,磷肥和钾肥的影响则较小;(2)氮素在香樟幼苗叶、茎、根中的分布状况主要受氮肥的影响,磷素在香樟幼苗叶、茎、根中的分布状况主要受氮肥和磷肥的影响,钾素在香樟幼苗叶、茎、根中的分布状况主要受钾肥的影响;(3)香樟幼苗的苗高生长与叶片氮含量、叶片磷含量呈显著正相关(P0.05),地径生长与茎氮含量呈显著正相关(P0.05),叶生物量与叶片氮含量、叶片磷含量呈显著正相关(P0.05),茎生物量与叶片磷含量呈显著正相关(P0.05);(4)综合分析得出,对香樟幼苗苗高、地径生长,以及枝叶生物量积累最具促进作用的施肥水平为氮肥(6 g·株-1)、磷肥(6 g·株-1)、钾肥(4 g·株-1)。