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1.
植物根系属性与其生态适应性密切相关。为明确不同放牧干扰下克氏针茅和多根葱两种优势植物根系属性差异,比较了轻度放牧、中度放牧、重度放牧下克氏针茅和多根葱地下根系长度、根系表面积、根系直径、根系体积、根尖数、根系分叉数、比根长和比表面积的形态特征,分析了2种植物根尖比、根长比、表面积比、体积比等根系形态格局,研究两种植物对放牧压力的生态适应性。结果表明: 放牧抑制了克氏针茅地上和地下部分生长,促进了多根葱地下部分生长,且放牧对克氏针茅地下部分的影响大于地上部分,表明在放牧干扰下克氏针茅通过地上部分来维持生长,多根葱通过地下部分来维持生长;根系长度、根系分叉数、根系表面积和根尖数是影响克氏针茅根系属性的主要因子,根系长度、根系表面积和根系体积是影响多根葱根系属性的主要因子;克氏针茅通过增加0~0.7 mm径级根长比、表面积比和体积比来适应放牧压力,而多根葱通过增加1.4~1.8 mm径级根长比、表面积比和体积比来适应放牧环境。研究克氏针茅和多根葱根系属性差异可以为草地退化防治提供科学依据。  相似文献   

2.
选择黄淮平原地区当前主推品种郑麦9023,以及早期引进品种阿勃和丰产3号为材料,利用微根管技术,研究冬小麦活根长和根直径径级的分布动态,以及以活根长为基础的净生长速率的变化规律.结果表明:根直径为0.05~0.25 mm的细根是冬小麦根系的主要组成部分,根直径≤0.5 mm的细根占活根长的98%以上;冬小麦的平均根直径随着生育进程不断变化,其变化范围为0.15~0.22 mm,不同品种之间没有显著差异;活根长与根尖数呈显著正相关,表明根尖数是活根长增加的主导因素;返青期到拔节期是冬小麦根系生长最旺盛的时期,阿勃和丰产3号具有较长时期的根系增长活力,郑麦9023自拔节期以后根直径≥0.1 mm的细根根尖数占总根尖数的比例有所上升,这有利于提高生育后期根系抗性和保证根系活性稳定,以满足籽粒灌浆的需要.  相似文献   

3.
黄淮平原冬小麦不同品种根系生长差异   总被引:2,自引:0,他引:2  
选择黄淮平原地区当前主推品种郑麦9023,以及早期引进品种阿勃和丰产3号为材料,利用微根管技术,研究冬小麦活根长和根直径径级的分布动态,以及以活根长为基础的净生长速率的变化规律.结果表明:根直径为0.05 ~0.25 mm的细根是冬小麦根系的主要组成部分,根直径≤0.5 mm的细根占活根长的98%以上;冬小麦的平均根直径随着生育进程不断变化,其变化范围为0.15~0.22 mm,不同品种之间没有显著差异;活根长与根尖数呈显著正相关,表明根尖数是活根长增加的主导因素;返青期到拔节期是冬小麦根系生长最旺盛的时期,阿勃和丰产3号具有较长时期的根系增长活力,郑麦9023自拔节期以后根直径≥0.1 mm的细根根尖数占总根尖数的比例有所上升,这有利于提高生育后期根系抗性和保证根系活性稳定,以满足籽粒灌浆的需要.  相似文献   

4.
武夷山不同海拔高度植被细根生物量及形态特征   总被引:4,自引:1,他引:3  
以福建武夷山不同海拔高度4种植物群落为对象,采用挖掘法获取土壤细根样品,用WinRHIZO根系分析仪分析细根形态,分别测定了不同海拔高度不同土层(0-10、10-25 cm)土壤细根现存生物量及各形态指标的变化特征.结果表明:0~10 cm土壤活细根生物量、活细根根长密度、活细根表面积密度、活细根体积密度均是常绿阔叶林<矮林<针叶林<高山草甸,各群落间呈现极显著差异(P<0.01);不同海拔高度植被,活细根和死细根的生物量、根长密度、细根表面积密度、细根体积密度均指标均是0~10>10~25 cm;4种植被在0~10、10~25 cm土层中≤2.0 mm径级的活细根、死细根对细根总长度、总表面积的贡献最大;土壤细根生物量及细根的主要形态指标总体趋势是高海拔显著大于低海拔;同时表明了土壤含水率是影响活细根各指标垂直变化的主要因子.  相似文献   

5.
崔家宝  魏晨  王宁  曹建军 《生态学报》2023,43(8):3327-3338
以根径级表征根系形态结构,可以反映植物资源利用和生物量分配状况。研究高寒草地不同径级根形态,对了解地下碳分配、水分和养分吸收及生产力具有重要意义。围封被认为是防治草地退化的最有效措施之一,但目前有关围封年限对不同径级根形态影响的研究还极度缺乏,以致无法确定有利于根生态效益,即资源吸收利用能力最大化的围封年限。以位于青海省海北台站围封5、13、22、39 a的高寒草地为研究对象,季节性放牧草地为对照,探讨围封年限对不同径级根形态(包括根长、根表面积和根尖数)的影响。结果表明:在0—15 cm土层中,径级小于0.5 mm时,围封13 a的根尖数显著高于围封5 a的草地,其对应的生物量也最大;径级小于0.6 mm时,围封13 a的根长和根表面积均显著高于围封5 a和放牧草地,且其对应的生物量也达最大;径级大于0.5 mm时,各草地之间的根尖数均无差异;径级大于0.6 mm时,围封39 a的根长和根表面积均显著高于放牧草地,且其对应的生物量最大。在15—30 cm土层中,各径级下,围封5 a的根长、根表面积和根尖数均显著大于围封39 a和放牧草地,但其对应的生物量在围封13 a时达最大。土壤硝...  相似文献   

6.
为了阐明根区交替控制灌溉(CRDAI)条件下玉米根系吸水规律,通过田间试验,在沟灌垄植模式下采用根区交替控制灌溉研究玉米根区不同点位(沟位、坡位和垄位)的根长密度(RLD)及根系吸水动态。研究表明,根区土壤水分的干湿交替引起玉米RLD的空间动态变化,在垄位两侧不对称分布,并存在层间差异;土壤水分和RLD是根区交替控制灌溉下根系吸水速率的主要限制因素。在同一土层,根系吸水贡献率以垄位最大,沟位最低;玉米营养生长阶段,10—30 cm土层的根系吸水速率最大;玉米生殖生长阶段,20—70 cm为根系吸水速率最大的土层,根系吸水贡献率为43.21%—55.48%。研究阐明了交替控制灌溉下根系吸水与土壤水分、RLD间相互作用的动态规律,对控制灌溉下水分调控机理研究具有理论意义。  相似文献   

7.
为了明确华北严重缺水区晚播冬小麦灌水对根系时空分布和土壤水分利用规律的影响,以冬小麦石麦15为材料,利用田间定位试验研究了不同灌水处理(春季不灌水W0;春季灌拔节水75mm,W1;春季灌起身水、孕穗水和灌浆水共225mm,W3)对根系干重密度(DRWD)、根长密度(RLD)、体积密度、分枝数等在0—200cm土层的垂直分布、动态变化及其对耗水和产量的影响,结果表明:随着春季灌水量的减少,开花后0—80cm土层的根干重密度、根长度密度、体积密度和分枝数密度均显著减少,80cm—200m土层的根干重密度、根长度密度、体积密度和分枝数密度却显著增加,并且显著增加冬小麦在灌浆期间对100cm以下深层土层水分的利用,总耗水量W1和W0分别比W3减少70.9mm、115.1mm,土壤耗水量分别比W3增加79.1mm、108.9mm,子粒产量W1和W0分别比W3减少653.3kg/hm2、1470kg/hm2,水分利用效率(WUE)则分别比W3提高0.09kg/m3、0.06kg/m3。晚播冬小麦春季灌1水(拔节水)可以促进根系深扎,增加深土层的根系分布量,提高对深层土壤贮水的吸收利用量,有利于实现节水与高产的统一。  相似文献   

8.
喀斯特坡地拉巴豆地埂篱根及根-土复合体力学特性   总被引:3,自引:0,他引:3  
唐菡  谌芸  刘枭宏  何丙辉  李勇  强娇娇  李铁 《生态学报》2019,39(16):6114-6125
为探索地埂篱在喀斯特坡地水土保持中的价值,在重庆市酉阳县喀斯特顺层坡种植拉巴豆地埂篱,通过对根系灰度扫描、化学成分(木质素、纤维素、半纤维素)测定,单根抗拉试验和根-土复合体抗剪/冲试验,分析拉巴豆地埂篱根及根-土复合体的力学特性及影响因素。结果表明:(1)拉巴豆根系全根指标根长、根表面积、根体积、根重均表现为中坡下坡上坡,优势径级为0.0d≤1.0 mm径级。全根根系纤维素的平均含量较木质素、半纤维素高,且与根系直径呈显著负相关。(2)根系平均极限抗拉力6.77 N、平均抗拉强度29.57 MPa。极限抗拉力与木质素含量呈对数函数正相关、与木质素/纤维素(木纤比)呈线性正相关,抗拉强度与纤维素含量、木纤比分别为对数函数正相关和负相关。(3)上坡位抗剪土样的根体积密度、根重密度和木纤比显著大于中、下坡;而抗冲土样的根体积密度、根重密度、纤维素和半纤维素含量则中坡较优,但不显著。(4)根系能有效提高土体抗剪性能,根-土复合体的内摩擦角与粘聚力均较对照裸地高,但仅上坡粘聚力存在显著性差异(较对照增大45.67%)。内摩擦角和抗冲指数均中坡、下坡较优,粘聚力最优值位于上坡位。根-土复合体的力学特性主要受根体积、根重、根表面积密度和纤维素的影响。综上,拉巴豆根及根-土复合体的力学特性主要贡献径级为0.0d≤1.0 mm径级,中、下坡细根量大且根-土复合体抗冲性能表现较优,上坡根-土复合体抗剪切能力最强,但抗冲性能较弱。在推广拉巴豆地埂篱时,尽量种植于地势较低缓的中、下坡,更能凸显水土保持效益。  相似文献   

9.
为探求林木幼苗生物量分配和根系生长对空气断根的响应,以侧柏(Platycladus Orientalis)实生苗为材料,设置空气断根(T)和不断根(CK)处理,研究了空气断根10、30 d和50 d后对侧柏生物量、根系形态特征及吸收面积的影响。结果表明:(1)T处理的侧柏幼苗地上生物量、根生物量、总生物量、根长、根表面积、根体积及根尖数在断根10、30 d和50 d后均大于CK,且显著扩大了根系总吸收面积和活跃吸收面积。(2)空气断根显著影响了侧柏实生苗的生物量分配格局,其根冠比在整个试验阶段呈先增大后减小的趋势,而CK逐渐减小。(3)两种处理的侧柏幼苗根系直径集中在0-0.5 mm。与CK相比,T处理侧柏随空气断根时间延长,单株根系直径在0-0.5 mm的根数量急剧增多,占总根尖数的79%,根平均长度、根表面积、根体积和根尖数显著增大。(4)生物量参数和根形态参数之间关系密切。根生物量与地上生物量及总生物量呈显著正相关(P0.05)。除根系平均直径外,根生物量、地上生物量和总生物量分别与根长、根表面积、根体积、根尖数呈显著正相关,根冠比与地上生物量呈负相关。因此,空气断根有效改善了侧柏幼苗的根系形态特征,提高了吸收面积,显著促进侧柏实生苗在生长早期快速发育。  相似文献   

10.
余明  蔡金桓  薛立 《生态学报》2019,39(20):7641-7648
全球氮沉降对森林生态系统结构和功能的影响已成为现代生态学研究热点之一,我国华南地区氮沉降的增长引起了土壤酸化和磷限制加剧等一系列生态问题。密度制约着植物个体对环境资源的吸收利用,是自然界中十分重要的选择压力之一。因此研究樟树(Cinnamomum camphora)幼苗的细根形态对氮磷添加和密度的响应,有利于了解亚热带树木根系对氮沉降和磷添加与林分密度的响应过程和机制,并为全球变化背景下樟树林生态系统的管理提供依据。本研究以1年生樟树幼苗为试验材料,选择氯化铵(NH_4Cl)作为氮肥以模拟大气氮沉降,并且以二水合磷酸二氢钠(NaH_2PO_4·2H_2O)模拟磷添加,氮磷处理设置4个水平,即对照、施N、施P和施N+P;种植密度设置10、20、40和80株/m~2 4个水平。测定各处理樟树幼苗细根的根长、表面积、体积和根尖数,分析氮磷添加、密度和两者交互作用对樟树幼苗细根的影响。研究结果表明,与对照处理相比,N、P和N+P处理促进了幼苗细根长度、表面积、体积以及根尖数的增加。低密度条件下的N添加对幼苗根系形态的促进效果强于P添加。N+P处理对10、20、40株/m~2幼苗根系形态的促进效果最佳,而各处理对80株/m~2幼苗根系形态的促进效果均无显著性差异。随着种植密度的增大,幼苗细根长度、表面积、体积和根尖数均减少。樟树幼苗的细根长度、表面积、体积和根尖数在各密度间和不同氮磷添加处理间均有显著性差异,密度和氮磷处理间的交互作用对根系形态各指标均无显著影响。  相似文献   

11.
Proper management of water and fertilizer placement in irrigated corn (Zea mays L.) has the potential to reduce nitrate leaching into the groundwater. Potential management practices tested in a two year field experiment included row or furrow fertilizer placement combined with every or alternate furrow irrigation. To understand how fertilizer availability to plants could be affected by these management practices, root growth and distribution in a Ulm clay loam soil were examined. Spring rains were greater than normal in both years providing adequate moisture for early root growth in both irrigated and non-irrigated furrows. As the non-irrigated furrow began to dry, root biomass increased as much as 126% compared with the irrigated furrow. The greatest increase was at lower depths, however, where moisture was still plentiful. When early season moisture was available, roots proliferated throughout the soil profile and quickly became available to take up fertilizer N in both irrigated and non-irrigated furrows. Root growth responded positively to fertilizer placement in the furrow in 1996 but not in 1995. Excessive N leaching in 1995 may have limited the response to fertilizer N.  相似文献   

12.
根区湿润方式对玉米根系生长发育的影响   总被引:6,自引:0,他引:6  
将厚塑料紧密地固定在盆栽试验用桶壁和底的中央,玉米种子播种于厚塑料布的正上方,在均匀灌水、固定部分根区灌水和根系分区交替灌水3种方式下,分期测定两个1/2根区根系的长度、面积、干重以及单位面积的平均根长和比根长,研究不同根区根系的生长发育特征。结果表明,处理40d时,与其他根区相比,固定灌水非灌水区的比根长和单位面积平均根长明显增大,说明土壤水分减少使根系直径变小。根面积、长度以及干重的增长速率均表现为,处理0~5d内,与均匀灌水及其非灌水区相比,两种局部灌水的灌水区均显著增大;处理10~15d内,交替灌水的灌水区较其他根区明显增大,固定灌水的灌水区与均匀灌水相近。固定灌水时,灌水区根系的面积、长度、干重及其增长速率较之非灌水区显著增大;交替灌水时,两个根区的增长速率呈交替变化,其绝对数值随时间延长趋于相同。表明交替灌水不仅可刺激供水区根系的补偿生长,而且对恢复供水区也有补偿效应,并能够促使不同根区的根系均衡发展。  相似文献   

13.
采用固定滴灌(根区一侧固定供水)、控制性分根区交替滴灌(根区两侧交替供水)和常规滴灌(紧贴幼树基部供水)3种灌水方式和3种灌水定额(固定滴灌和交替滴灌均为10、20和30 mm,常规滴灌为20、30和40 mm),对比研究了控制性分根区交替滴灌对苹果幼树形态特征与根系水分传导的影响.结果表明:交替滴灌的根区两侧土壤出现反复干湿交替过程,常规滴灌的根区两侧土壤含水率差异不显著.在灌水定额相同时,灌水侧的土壤含水率在3种灌水方式间差异不显著.与常规滴灌和固定滴灌相比,交替滴灌显著增加了苹果幼树的根冠比、壮苗指数和根系水分传导,在30 mm灌水定额处理下,交替滴灌的根冠比分别增加31.6%和47.1%,壮苗指数增加34.2%和53.6%,根系水分传导增加9.0%和11.0%.3种灌水方式下,根干质量和叶面积均与根系水分传导呈显著线性正相关.控制性分根区交替滴灌增强了苹果幼树根系水分传导的补偿效应,促进了根系对水分的吸收利用,有利于干物质向各个器官均衡分配,显著提高了根冠比和壮苗指数.  相似文献   

14.
Ostonen  Ivika  Lõhmus  Krista  Lasn  Rein 《Plant and Soil》1999,208(2):283-292
The present study is an attempt to investigate the pattern of morphological variability of the short roots of Norway spruce (Picea abies (L.) Karst.) growing in different soils. Five root parameters – diameter, length and dry weight of the root tip, root density (dry weight per water-saturated volume) and specific root area (absorbing area of dry weight unit) were studied with respect to 11 soil characteristics using CANOCO RDA analysis. The investigation was conducted in seven study areas in Estonia differing in site quality class and soil type. Ten root samples per study area were collected randomly from the forest floor and from the 20 cm soil surface layer. Eleven soil parameters were included in the study: humus content, specific soil surface area, field capacity, soil bulk density, pH (KCl and H2O dilution's), N and Ca concentrations, Ca/Al and C/N ratios, and the decomposition rate of fine roots (<2 mm dia.). Root morphological characteristics most strongly related to the measured soil characteristics in the different sites were specific root area, root density and diameter of the short roots, the means varying from 29 to 42 m2 kg−1, from 310 to 540 kg m−3 and from 0.26 to 0.32 mm, respectively; root density being most sensitive. The most favourable site and soil types resulting in fine roots with morphological characteristics for optimizing nutrient uptake (e.g. low short root density and high specific root area) were Umbric Luvisol (Oxalis), Dystric Gleysol (Oxalis) and Gleyic Luvisol (Hepatica). These soil types correspond to highly productive natural forest stands of Norway spruce in Estonia. All measured soil variables explained 28% of total variance of the root characteristics. The most important variables related to root morphology were the humus content, field capacity and specific soil surface area. This revised version was published online in June 2006 with corrections to the Cover Date.  相似文献   

15.
Alternate-furrow irrigation, combined with fertilizer placement in the non-irrigated furrow, has the potential to reduce fertilizer leaching in irrigated corn (Zea mays L.). The potential also exists, however, for reduced N uptake under alternate-furrow irrigation. This study examined the effects of fertilizer placement and irrigation treatment on N uptake, rootashootroot circulation, and partitioning between reproductive and vegetative tissues. Rainfall was above average in both years of the study, especially during May and June, so that root growth beneath the non-irrigated furrow was equal to root production beneath the irrigated furrow. Under those conditions, soil NO3 concentration in the fertilized furrow during late-vegetative and reproductive growth was greater in the alternate-furrow compared with the every-furrow treatment, resulting in increased fertilizer N uptake during reproductive growth and increased N partitioning to reproductive tissues under alternate-furrow irrigation. About 80% of the fertilizer N found in roots had first been translocated to the shoot and then returned via the phloem to the root system. Nitrogen cycling from root to shoot to root was not affected by irrigation treatment. Alternate-furrow irrigation successfully increased N uptake and reduced the potential for NO3leaching when environmental conditions allowed adequate root development in the non-irrigated furrow, and when the growing season was long enough to allow the crop to reach physiological maturity.  相似文献   

16.
垄作与覆膜对川中丘陵春玉米根系分布及产量的影响   总被引:2,自引:0,他引:2  
通过设置田间试验,研究种植方式(垄作垄播、平作、垄作沟播)与覆膜措施对川中丘陵春玉米根系分布和玉米产量的影响.结果表明: 垄作与覆膜对玉米根系形态影响显著,覆膜显著提高了玉米根长、根表面积和根体积,拔节期覆膜较不覆膜处理分别提高了42.3%、50.0%和57.4%.覆膜提高了各土层和各水平各层次根质量,扩大了根系在土壤垂直和水平方向上的分布,提高了拔节期20~40 cm土层和水平方向上宽行0~20 cm根系比例.种植方式对根系生长和分布的影响因覆膜而异,覆膜下垄作垄播显著提高了各土层根质量和20~40 cm土层根量分配比例,同时提高了水平方向上各层次根量和宽行根系分配比例,总根质量表现为:垄作垄播>平作>垄作沟播;不覆膜下垄作沟播显著提高了窄行0~40 cm根量,吐丝期总根质量表现为:垄作沟播>垄作垄播>平作.从玉米穗部性状和产量看,覆膜降低了玉米秃尖长,提高了穗长、穗粒数、千粒重和产量,覆膜下产量表现为:垄作垄播>平作>垄作沟播;不覆膜下则表现为:垄作沟播>平作>垄作垄播.覆膜下垄作垄播促进了根系特别是深层根质量的增加,同时增加了深层根系和水平20~40 cm根系比例,这是其增产的重要原因;而不覆膜下垄作沟播有利于根系生长,从而提高产量.  相似文献   

17.
 在塔克拉玛干沙漠腹地,采用分层分段挖掘法对不同灌溉量条件下(每株每次灌水3 5、24.5和14 kg)梭梭(Haloxylon ammodendron)幼苗根系的分布特征进行了研究。结 果表明: 1)随着灌溉量的减少,梭梭幼苗根系生物量的分布格局有向深层发展的趋势,在不同灌溉量条件下地下垂直各层生物量与土壤垂直深度呈显著的负对数关系;2)各灌溉量梭梭幼苗的最大水平根长为垂直根长的2倍,但不同灌溉量根系生物量的水平分布趋势一致 ;3)吸收根生物量的垂直分布与土壤含水量的垂直变化基本一致,均呈“单峰型”曲线, 但灌溉量不同,吸收根生物量峰值在土壤中出现的位置也不同,随着灌溉量的减少,吸收根集中分布区有向深层发展的趋势;4)根长、根表面积和根体积随着土壤深度的增加均呈“单峰型”曲线,灌溉量愈小,根长、根表面积和根体积的峰值愈位于土壤的深层;5)根冠比和垂直根深与株高之比随着灌溉量的减少而呈增加的趋势。  相似文献   

18.
滴灌与沟灌栽培杨树人工林土壤水分动态与生产力   总被引:2,自引:0,他引:2  
在北京大兴区永定河故道沙地上对9年生杨树人工林进行滴灌和沟灌栽培,于根系主要分布土层(20、40、60、80 cm)布设土壤水分传感器并利用智能采集器实时监测土壤含水率,分析不同灌溉措施下的土壤水分动态变化及杨树人工林生产力。结果表明: 单次有效的滴灌和沟灌后,沿树行形成的湿润体垂直深度分别为72和143 cm,湿润体横切面的面积分别为0.41和2.71 m2;灌溉量分别为79.20和776.47 m3·hm-2,后者为前者的9.8倍,灌溉后杨树吸收根主要分布土层(0~40 cm)的土壤含水率下降到水分轻度亏缺临界值(土壤含水率为田间持水量的70%)的历时均为11 d左右。2019年4—10月,沟灌5、7、9月3次总灌溉量为2329.41 m3·hm-2;滴灌18次,总灌溉量为1425.60 m3·hm-2。沟灌下杨树人工林土壤水分中度亏缺(土壤含水率低于田间持水量的60%)累计天数达109 d,而滴灌下的杨树人工林土壤水分始终未发生中度亏缺。滴灌下杨树人工林蓄积年生长量为38.92 m3·hm-2,是沟灌(25.43 m3·hm-2)的1.5倍,表明不同灌溉措施下杨树人工林生产力差异显著。  相似文献   

19.
《植物生态学报》2015,39(8):825
Aims Irrigation and fertilization have great potentials to enhance yield in forest plantations. The integrated effect of water and nitrogen management on fine roots morphology and distribution of Populus × euramericana ‘Guariento’, however, remains unclear. The objective of this study was to evaluate the effect of water and nitrogen addition on fine root morphology and distribution in poplar plantations for developing the best water and nitrogen strategy for promoting fine root. Methods The soil core method was used to quantify the morphology and distribution of fine roots in the 0–60 cm in a poplar plantation with surface dripping irrigation and fertilization technologies. The experiment included nine treatments, which were a combination of three irrigation treatments where dripping irrigation was applied when soil water potential (ψsoil) reached –75, –50, or –25 kPa, and three fertilization treatments at nitrogen additions of 150, 300, or 450 g·tree–1·a–1, respectively). A control plot with non-irrigation and non-fertilizationtreatment in growing season (CK) was also included in the study. Important findings The fine roots biomass density, fine root surface area density, average root diameter in all treatments were mainly found at 0–10 cm and 10–20 cm depths, with root biomass density in the 10–20 cm of 1.03 to 1.21 times of that in the 0–10 cm, 1.25 to 1.80 times of that in the 20–30 cm, 1.62 to 22.10 times of that in the 30–40 cm, 2.77 to 54.35 times of that in the 40–50 cm, and 6.48 to 293.09 times of that in the 50–60 cm. The root biomass density in the 10–20 cm accounted for 27%–37% of the total biomass density in the top 60 cm. For root biomass density and average diameter, there were no significant differences between 0–10 cm and 10–20 cm depths, and between 40–50 cm and 50–60 cm depths. Fine roots in the irrigation and fertilization treatments were significantly higher than that of the CK, except the D1F1 treatment (i.e., with low water and low nitrogen level). Additionally, fine roots in the D2F3 treatment (i.e., with intermedia irrigation and high nitrogen level) and the D3F3 treatment (i.e., with high water and high nitrogen level) were significantly higher than those in other treatments, but not significantly different between D2F3 and D3F3. Compared with the CK, the fine roots biomass density in six soil layers were significantly enhanced at 359%, 388%, 328%, 3823%, 4774% and 2866%, respectively, for the treatment with high water and high nitrogen levels. The vertical distributions of fine roots appeared not affected by the interaction of irrigation and nitrogen addition. However, the surface dripping irrigation and fertilization treatments increased fine roots significantly. Finally, we found that the response of fine root growth and distribution was stronger to fertilization than to the irrigation in this poplar plantation.  相似文献   

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