小豆种质资源苗期抗旱性评价及抗旱资源筛选

为了探讨小豆苗期抗旱性特点,建立抗旱性鉴定指标评价体系,筛选抗旱基因型材料,本研究以苗期盆栽控水方式,对不同来源的235份小豆种质资源进行了干旱胁迫试验。在测定其根系形态、株高、生物量和冠层萎蔫等15项指标的基础上,利用隶属函数值法、主成分分析和聚类分析对抗旱性进行了综合评价。结果表明,干旱胁迫条件下主根长、侧根长、总根长和根冠比值均比对照组高;主根表面积、侧根表面积、总根表面积、主根体积、侧根体积、总根体积、地上部干重、地下部干重、整株干重和株高值均低于对照组。各性状隶属函数值相关性分析表明隶属函数值平均值与总根表面积相关性最大。主成分分析将15个性状归纳成3个主成分(累积贡献率为82.8%),其中第Ⅰ主成分的载荷主要是根表面积,第Ⅱ主成分的载荷主要是干重,第Ⅲ主成分的载荷主要是主根长。聚类分析将235份小豆种质资源聚成抗旱型、中间型和敏感型3类,分别占供试材料的8%、63%、29%。根据隶属函数值法和主成分分析法结合不同类型根系形态,可将总根表面积作为小豆苗期抗旱性评价的主要指标。初步筛选出15份小豆耐旱资源材料,为进一步开展小豆抗旱育种和挖掘抗旱基因提供了基础材料。     

东乡普通野生稻与栽培稻苗期抗旱性的比较

干旱影响水稻生长发育,不论什么时期发生最终都导致产量损失。研究水稻资源抗旱性有助于水稻抗旱改良和稳定干旱胁迫下水稻的产量。东乡普通野生稻被公认为是栽培稻的祖先,对增强水稻抗旱性可能十分重要。对4份来自3个仅存的居群的东乡野生稻与15份栽培稻进行苗期抗旱性比较,考察了3次重复的盆栽土培试验中8个抗旱指标。表明东乡普通野生稻比栽培稻更为抗旱,表现在最大根长、茎长、根干重、根鲜重、根干鲜重比及抗旱指数等6个性状,而不表现在根数及根茎长比;其中茎长、最长根长、根干重、根鲜重及根系相对含水量对水稻苗期抗旱性影响更大。采用抗旱指数和抗旱总级别值法对水稻抗旱性进行评定,结果表明4份东乡野生稻材料间的抗旱性存在很大差异,且来水桃树下居群的抗性最高,东乡野生稻抗旱性可能与其原生境状况有关。结果认为东乡普通野生稻可作为栽培稻抗旱改良的遗传资源。     

栽培稻种质资源的深根比鉴定评价北大核心CSCD

干旱是水稻生产中最严重的非生物胁迫,增强根系对深层土壤水分的吸取能力是提高水稻抗旱性的重要育种目标。为筛选优异抗旱稻种资源,本研究对2234份栽培稻种质资源进行了以深根比为鉴定指标的避旱性鉴定评价,在水分梯度抗旱大棚中对131份具有不同深根比的种质进行了孕穗期抗旱性鉴定评价。供试材料的深根比变异范围为8.6%~60.1%,平均深根比为25.8%,47.2%材料的深根比集中在20%~30%之间,25.2%材料的深根比低于20%,深根比超过40%的高深根比种质仅占6.1%;国外材料中高深根比种质比例达到了24.4%,其次是上海(17.9%)和湖南(15.6%),广东、贵州和广西的高深根比种质比例均低于1%;地方品种的深根比略高于育成品种(系),地方品种的高深根比种质比例也高于育成品种(系);粳稻深根比高于籼稻深根比,粳稻中高深根比种质比例是籼稻的3.6倍;在籼稻种质中,湖南籼稻材料中高深根比种质比例较高,而广东、广西和贵州等省的籼稻种质中都只有1份高深根比种质。孕穗期抗旱性鉴定结果显示,高深根比种质中的高抗旱材料比例是低深根比材料的3.2倍、是中等深根比材料的2.0倍。综合分析干旱胁迫和正常水分条件下的结实率以及两种情况下的每穗粒数比值和结实率比值等抗旱性鉴定指标,筛选获得26份抗旱性优异材料,可作为水稻节水抗旱育种优良亲本和应用于抗旱基因挖掘。     

不同抗旱性冬小麦根系时空分布与产量的关系

为明确不同抗旱性冬小麦品种(Triticum aestivum L.)根系时空分布及其与产量的关系,以抗旱性品种长武134、长旱58和干旱敏感性品种小偃22、西农979为材料,采用根箱试验研究干旱胁迫和充分供水条件下4个品种在拔节期、开花期和成熟期根系总生物量、总根长密度、根系在表层(0—20 cm)和深层(20 cm以下)土壤中的垂直分布、动态变化及其对产量的影响。结果表明,干旱胁迫下抗旱性品种产量显著高于干旱敏感性品种,其中长旱58产量最高,西农979最低;充分供水条件下,西农979产量最高,长武134最低,长旱58与小偃22之间没有差异。相关分析表明,产量与各生育时期根系性状均有显著关系。多元逐步回归分析的结果显示,干旱胁迫和充分供水条件下,拔节期深层根生物量对产量有正效应,而成熟期总根长密度对产量表现为负效应。通径分析表明,干旱胁迫下,根系性状对产量的直接贡献大小为开花期总根长密度(|0.54|)拔节期深层根生物量(|0.36|)成熟期总根长密度(|-0.31|);充分供水时,成熟期总根长密度(|-1.56|)拔节期深层根生物量(|0.83|)。研究表明,减少成熟期总根长密度,增加拔节期深层根生物量对抗旱性及干旱敏感性冬小麦品种产量均有显著的正效应,增加开花期根长密度有利于提高抗旱性冬小麦产量。     

谷子全生育期抗旱性鉴定及抗旱指标筛选

作物全生育期抗旱性对发掘和利用抗旱品种和抗旱基因至关重要,但谷子全生育期抗旱鉴定至今未有报道,抗旱鉴定缺乏鉴定指标。本试验在干旱池模拟干旱条件下,对苗期抗旱性表现不同的谷子品种进行了全生育期抗旱性研究,调查分析了根干重等形态和生理性状在干旱胁迫条件下的变化;采用相关和灰色关联度等方法,分析这些指标与抗旱性(DRI)的关系。结果表明,相对根冠比、相对单穗粒重和灌浆期光合速率、蒸腾速率同抗旱性表现极显著相关,可以作为谷子全生育期抗旱性鉴定的指标;而相对根干重、相对单穗重、相对株高和气孔导度则可以作为谷子全生育期抗旱性鉴定的参考指标;在供试的品种中,红根谷和大齐头白表现了良好的综合抗旱性。本文还讨论了抗旱性的复杂性以及不同性状对干旱胁迫的反应,所建立的指标对谷子全生育期抗旱鉴定具有指导意义。     

干旱胁迫对不同苦荞品种苗期生长和根系生理特征的影响

采用盆栽人工控水试验,研究了不同水分处理(正常供水、中度干旱和重度干旱)对耐旱型(‘迪庆苦荞’、‘西农9909’)和不耐旱型(‘西荞1号’和‘黑丰1号’)苦荞品种苗期生理、形态指标的影响,并通过隶属函数法与主成分分析对品种抗旱性进行综合评价,以揭示苦荞苗期的抗旱生理机制。结果表明:(1)与正常供水相比,除‘迪庆苦荞’和‘西农9909’在重度干旱胁迫下主根长呈升高趋势外,其余苦荞品种在2个干旱条件下的株高、茎粗、叶面积、地上部干重、地下部干重、根系体积、根系表面积均呈下降趋势,且耐旱品种降幅小于不耐旱品种;重度干旱胁迫使得‘迪庆苦荞’的根冠比升高,而其余品种根冠比在干旱胁迫下均无显著变化。(2)干旱胁迫使苦荞叶片的叶绿素含量、相对含水量、最大荧光产量(Fm)、最大光化学效率(Fv/Fm)、根系活力和可溶性蛋白含量显著降低,而根系超氧化物歧化酶(SOD)活性、过氧化物酶(POD)活性、丙二醛(MDA)、可溶性糖及游离脯氨酸含量呈升高趋势;不同抗旱性品种间的升降幅度存在差异。(3)各苦荞品种耐旱能力综合评价值(D)表现为‘迪庆苦荞’‘西农9909’‘黑丰1号’‘西荞1号’;幼苗株高、地下部干重及根系SOD活性和蛋白质含量与D值呈显著正相关关系,而根系脯氨酸含量和可溶性糖含量与D值呈极显著正相关关系。研究发现,在中度与重度干旱逆境下,苦荞品种‘迪庆苦荞’和‘西农9909’综合表现较好,具有更强的耐旱能力,而品种‘西荞1号’和‘黑丰1号’综合表现较差,其抗旱性较弱;苗期株高、地下部干重以及根系SOD活性、蛋白质含量、脯氨酸含量和可溶性糖含量可作为苦荞抗旱性快速鉴定的指标。     

水分胁迫下不同基因型小麦苗期的形态生理差异

以36个不同育成年代和生态区域的小麦品种为材料,研究了水分胁迫对小麦苗期生长的影响,并基于灰色关联分析评价了小麦品种苗期抗旱性的基因型差异.结果表明:小麦品种抗旱性差异显著,加权抗旱指数在0.2434～0.6580之间;17个形态生理性状中与抗旱性关联程度最大的是地上部干物质量(0.9473),最小的是叶绿素含量(0.5356).采用聚类分析将36个小麦品种分为3类,其中抗旱型8个、中间型23个、敏感型5个.3类基因型的地上部干物质量、根干物质量、植株干物质量、株高、根系氮积累量、叶面积和单株分蘖数差异显著,可作为小麦品种苗期抗旱性鉴定的直接指标.     

不同抗旱性花生品种的根系形态发育及其对干旱胁迫的响应

为明确不同抗旱性花生品种的根系形态发育特征,探讨其根系形态发育特征对不同土壤水分状况的响应机制,在防雨棚旱池内进行土柱栽培试验,研究抗旱型品种“花育22号”、“唐科8号”和干旱敏感型品种“花育23号”3个不同抗旱性花生品种根系形态发育特征及其对干旱胁迫的响应.结果表明:抗旱型品种根系较发达,具有较大的根系生物量、总根长、总根系表面积.干旱胁迫使抗旱型品种根系总表面积和体积增加,而干旱敏感型品种则相反.干旱胁迫显著增加抗旱型品种“花育22号”20 cm以下土层内根长密度分布比例及根系表面积和体积,但“唐科8号”相应根系性状仅在20-40 cm土层内增加;干旱胁迫使干旱敏感型品种“花育23号”40 cm以下土层内各根系性状升高,但未达显著水平且其深层土壤内各根系性状增加幅度小于“花育22号”.花生根系总长、总表面积及0-20 cm土层内根系性状与产量间呈显著或极显著正相关.土壤水分亏缺条件下,花生主要通过增加深层土壤内根长、根系表面积和体积等形态特性,优化空间分布构型,以调节植株对水分的利用.     

大豆耐旱种质鉴定和相关根系性状的遗传与QTL定位

从301份黄淮海和长江中下游地区代表性大豆地方品种和育成品种(系)中按根系类型选取59份,在苗期干旱胁迫和非胁迫条件下对地上部和地下部性状进行2年重复鉴定,发现材料间性状隶属函数值具有丰富遗传变异,以株高、叶龄、根干重和茎叶干重隶属函数的算术平均数为抗旱综合指标从中筛选出汉中八月黄、晋豆14,科丰1号,圆黑豆等强耐旱型(1级)和临河大粉青、宁海晚黄豆等干旱敏感型(5级)材料。比根干重、比总根长、比根体积与耐旱隶属函数平均值均呈极显著正相关,可作为耐旱性的根系性状指标。利用“科丰1号×南农1138 2”(1级×4级)衍生的RIL群体为材料,对耐旱相关根系性状采用主基因 多基因混合遗传模型分离分析法进行遗传分析并进行QTL定位。结果表明,该两亲本间比根干重、比总根长、比根体积的遗传均为两对主基因加多基因模型,后两者主基因间有连锁(重组率分别为4.30%和1.93%);主基因遗传率为62.26%～91.81%,多基因遗传率为2.99%～24.75%;耐旱相关根系性状各主要由1对主基因控制,另1对效应较小。QTL分析检测到5、3、5个QTLs分别控制比根重、比根总长、比根体积,位于N6 C2、N8 D1b W、N11 E、N18 K连锁群上。3性状各有1个贡献率大的QTL(Dw1,Rl1,Rv1),而且均位在N6 C2的STAS8_3T STAS8_6T相同距离的区段上,其他QTLs效应均较小。分离分析与QTL定位的结果相对一致。     

东乡野生稻BILs群体苗期抗旱性综合评价及其遗传分析

本研究选用旱稻、R974//R974/东乡野生稻回交重组自交系及其亲本等66份水稻材料,进行苗期抗旱性鉴定及其综合指标筛选,测定了水分胁迫下最大根长、根基数、茎长、根干重、根鲜重、根系相对含水量、叶片相对含水量、卷叶级别及干旱反复存活率等9个性状。利用主成分分析和逐步回归分析法进行苗期抗旱综合评价,结果表明株系1949最为抗旱;回归分析和相关分析表明最大根长、根数、根鲜重和根系相对含水量对抗旱性影响显著,可作为苗期抗旱性鉴定综合指标。采用综合抗旱D值进行抗旱遗传分析,表明BILs群体的苗期抗旱性表现2对独立主基因+多基因控制。结果可知,东乡野生稻可作为水稻抗旱遗传改良的宝贵资源。     

Effects of periodic flooding and root pruning on Quercus nuttallii seedlings

In the southern United States, much of the emphasis in bottomland restoration is placed on establishing an oak-dominated forest. Artificial regeneration is an alternative for restoration on cleared lands and where a desirable seed source is not present. Currently the standard procedure for seedling preparation is to prune the roots prior to transplanting in the field. It is not fully known what effect(s) root pruning has on transplanted seedlings. In addition, bottomland restoration efforts inherently take place on floodplains. The potential interaction between root pruning and flooding on seedling performance is not known. This study consisted of two separate but related laboratory experiments. The purpose of the first experiment was to quantify the effects of various percentages of root removal and varying soil moisture regimes on transplanted Nuttall oak seedlings (Quercus nuttallii Palmer). Root pruning treatments consisted of removal of roots at 0%, 25% and 75% while soil moisture regime was maintained at non-flooded or periodically flooded conditions. Plant gas exchange, growth, and survival were measured. Root pruning alone had adverse effects on height growth during the first 72 days following transplanting. Periodic flooding also produced adverse effects on stomatal conductance (p = 0.0002), height growth (p = 0.005), and survival (p = 0.02). Photosynthetic data indicated that as pruning intensified in the periodically flooded seedlings, photosynthetic rates decreased. In contrast, as pruning intensified in the non-flooded seedlings, photosynthesis increased. This demonstrated that pruning rate had a varying effect on photosynthesis dependent upon soil moisture condition. Experiment 2 focused on the effects of varying degrees of root pruning on new root formation. The seedlings were grown under laboratory conditions, harvested at 0, 10, 20, and 30 days after treatment initiation, and analyzed for new root formation. Results of Experiment 2 indicated no difference in new root formation, root length, or root biomass due to the pruning treatment. Overall, our results from both experiments indicated that root pruning had no detectable long-term adverse effects on growth and survival of seedlings under drained soil conditions; however, as results from Experiment 1 demonstrated, if seedlings were planted in periodically flooded conditions, root pruning produced adverse effects. Thus, in restoration efforts utilizing Nuttall oak seedlings, the planting strategy and pruning rate should be carefully evaluated based on the knowledge of sites' hydrology. Alternatively, on sites with unpredictable flooding both pruned and unpruned seedlings may be utilized to ensure survival.     

土壤湿度对香樟幼苗根系生长和构型的影响

以1年生香樟(Cinnamomum camphora)幼苗为试材,设置对照组(CK)、中度干旱处理(M)、重度干旱处理(S)三个处理,比较不同土壤湿度下香樟幼苗不同时期地上部分生长和根系构型,探究香樟幼苗根系对不同土壤湿度的适应性及其耐旱机制。结果表明,中度和重度干旱处理组的香樟根系及地上部分干物质积累、根系长度、根系表面积、根系直径和根尖数均显著小于对照组(P<0.05)。同时干旱显著增加香樟幼苗的根系拓扑指数,降低香樟根的分形维数和平均分枝角度(P<0.05)。可见土壤湿度程度及处理时间显著影响香樟根系的生长及在土壤中的布局。较低土壤湿度可显著抑制根长的延长、根表面积扩大和根的增殖,且随着土壤湿度的继续降低以及处理时间延长,香樟幼苗根系的生长受到水分亏缺的抑制作用加重,根系建成成本增高的同时,根系分枝的复杂性降低,根系必须通过朝着更陡、更深的方向生长伸长来提高水分吸收效率。建议在园林绿化工程养护过程中制定科学的水分管理策略,以满足香樟生长过程中对土壤水分的需要。     

岷江干旱河谷土壤水、氮和磷对小马鞍羊蹄甲幼苗生长的影响

资源阈值对植物的影响是恢复生态学的重要议题.通过近似模拟岷江干旱河谷自然干旱条件下水、氮和磷的阈值,设计析因实验,研究了一个生长季节内小马鞍羊蹄甲幼苗生长、生物生产量、资源利用效率和存活率的变化.结果表明：高水（40%田间持水量）、高磷（24 mg P·kg^-1）和低氮（100 mg N·kg^-1）处理分别促进了幼苗生长,增加了生物生产量,提高了存活率和水分利用效率,氮磷交互作用显著,水分和养分交互作用不明显.高氮（240 mg N·kg^-1）有强烈的负效应,高磷可以增大根面积、根长和根生物量,提高对氮和磷的吸收,缓解高氮的抑制作用.养分利用效率和幼苗根茎比呈显著正相关,并保持相对稳定.高水、高磷和低氮耦合有效地促进了幼苗的生长,而低水、低磷和高氮耦合则明显抑制了幼苗生长.     

Drought resistance and root morphology in sorghum

Two 2 m³ plots of soil were prepared to different water contents and each isolated from surrounding soil by impermeable plastic material. Nine sorghum varieties were germinated in the plots and allowed to grow without further watering. Time-to-wilt after emergence was measured, and several parameters relating to water flow of the seedling and nodal roots were determined. There was a good positive correlation between both seminal root and nodal root relative conductvity and time-to-wilt. In a second experiment, plants were germinated and grown in pots, and after two weeks of growth without further watering were inspected for survival in the unwilted state. The per cent survival was calculated. There was a negative correlation of seminal root relative conductivity with per cent survival, and a high negative correlation of the number of seminal roots with per cent survival. It is concluded that high relative conductivity indicates drought resistance if the plants are growing with less restricted roots as in open soil, while if the plants are grown in pots the reverse is the case. Experiments linking root conductivity with survival conducted in pots are poor predictors of performance in less restricted rooting conditions.     

Root morphology and water transport of Pistacia lentiscus seedlings under contrasting water supply: A test of the pipe stem theory

Restoration of degraded Mediterranean areas often requires the reintroduction of key-stone woody species but the establishment of seedlings of native species is frequently poor. This is partly due to insufficient knowledge of the ecology of these species at the seedling stage. Fast rooting and efficient water supply under water limiting conditions may be crucial to withstand summer drought and ensure establishment. However, knowledge of the relationship between root morphology and the water transport capacity of Mediterranean woody species in response to drought is still scarce. We evaluated the effect of low water availability on biomass allocation, root morphology and transpiration of a common Mediterranean shrub species, Pistacia lentiscus L. Seedlings of this species were grown in pots filled with soil under glasshouse conditions for 6 months, and irrigated either weekly (W+) or monthly (W?). Low water availability strongly reduced all fractions of biomass, and decreased relative biomass allocation belowground. Average diameter of fine roots colonising the soil was higher in W+ plants, but this resulted in only marginal effects on specific root length. Water limitation did not affect the topology of secondary roots colonising the soil. Surprisingly, the ratio of leaf area to coloniser roots surface area was higher in W? seedlings. Sapwood area was strongly correlated with leaf area, secondary roots cross-sectional area, and surface area of fine roots colonising the soil when all seedlings were pooled. In agreement with the pipe stem theory, the ratio of sapwood area to leaf area was not affected by watering regime. Plant water loss when soils were taken to field capacity was significantly correlated with leaf area, sapwood area, secondary roots cross-section area and coloniser roots surface area. Water loss at high water availability was greatly reduced in W? plants, as leaf area decreased and transpiration rates on a leaf area basis were similar in W+ and W? seedlings. P. lentiscus showed limited capacity to acclimate to low water availability by modifying biomass allocation and root morphology. Thus, parallel to what has been observed aboveground, this species can benefit from periods of high water availability by showing relatively high root growth rates, but may respond poorly to water scarcity.     

Habitat-specific responses of seed germination and seedling establishment to soil water condition in two Rheum species in the high Sino-Himalayas

Knowledge of how germination and seedling establishment respond to soil water condition is crucial for plant conservation under global warming and land-use changes. We tested the flooding and drought tolerance of two plant species with different occurrences along a soil water gradient by assessing seed germination, seedling survival, seedling growth, and root characteristics. In the high Sino-Himalayas, Rheum alexandrae typically occurs in wetlands, R. nobile in scree or open slope with well-drained soils. Seeds and seedlings of the two species were subjected to different soil water conditions in controlled greenhouse experiments. Seed germination in both species was inhibited by high soil water content; however, seeds of R. alexandrae were more tolerant to flooding, especially to submergence. Seedling survival, biomass accumulation, root diameter, and root porosity of R. alexandrae increased significantly with increased soil water content, but submergence was lethal for seedlings. Seedling survival, biomass accumulation, and root length of R. nobile increased significantly in response to reduced soil water content. These results indicate that in the two species, seed germination and seedling establishment in response to different soil water condition are habitat-specific. Because both species are susceptible to moderate changes in soil water condition, their species-specific requirements with respect to this factor should be a consideration when planning their conservation.     

The effect of soil strength on the growth of pigeonpea radicles and seedlings

The effect of soil strength on the growth of pigeonpea radicles and seedlings was investigated in cores of three clay soils prepared at different water contents and bulk densities in the laboratory.Radicle elongation directly into soil cores was reduced from 50–70 mm d^-1 at strengths less than 0.5 MPa to 0 mm d^-1 at 3.5–3.7 MPa. The response to soil strength was affected by the water content of the soil, presumably as a result of reduced oxygen availability in wetter soil. This effect was apparent in soils wet to air-filled porosities less than 0.15 m³ m^-3.Radicles were more sensitive to high soil strength (>1.5 MPa) than were seedling roots which encountered the same conditions at 60 mm in the profile. Radicle growth ceased at 3.5 MPa which reduced seedling root growth by only 60%.Despite a 60% reduction in root length in the high strength zone, seedling roots compensated in zones of loose soil above and below the compacted layer, and total root length and shoot growth were unaffected. There was no evidence of a root signal response which results in reduced shoot growth in some species in response to high soil strength.The proliferation of roots in surface layers and the delayed penetration of the root system to depth in compacted soil are likely to expose seedlings to a greater risk of water-deficit in the field, particularly under dryland conditions where plants rely on stored subsoil water for growth.     

塔克拉玛干沙漠腹地梭梭幼苗根系分布特征对不同灌溉量的响应

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35、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。     

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

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.