部分根系供磷对黄瓜根系和幼苗生长及根系酸性磷酸酶活性影响

通过分根处理研究了部分根系供磷结黄瓜幼苗生长、植株体内的含磷量及根系酸性磷酸酶活性的影响。结果表明,２０％根系缺磷（１条根所磷,４条根系地上部的生物量分别是正常生长植株的１．３９倍和１．２１倍。２０％根系缺磷,唯心论促进其它供磷系对磷的吸收。分根处理后,２０％根系缺磷不影响植物对磷营养的需要,但却表现出了Ｒ／Ｓ比增大的典型缺磷反应,说明植物感应缺磷根系起飞丰比地上部更为重要的作用。分根处理后不供磷     

垂直方向磷素竞争对杉木根系生长及生物量分配的影响

针对自然环境中有效磷养分主要分布于土壤表层而容易导致植物根系激烈竞争的问题,选择同一杉木(Cunninghamia lanceolata)无性系幼苗为研究对象,采用水平方向空间狭小而垂直方向空间大的室内盆栽模拟装置,以单株种植为对照,构建双株种植的竞争处理,通过设置3个供磷水平:不供磷处理(0 mg/kg KH_2PO_4)、低磷处理(6 mg/kg KH_2PO_4)和正常供磷处理(12 mg/kg KH_2PO_4),采用破坏性试验方式收获,分别在试验的前期(50 d)、中期(100 d)和后期(150 d)测定不同处理条件下杉木幼苗根系生物量与根系形态的变化,研究邻株杉木根系在垂直方向上对有限磷素资源的竞争策略。结果表明:竞争处理和供磷水平对杉木幼苗根系长度、平均直径等形态指标的影响存在交互作用(P0.05),对杉木幼苗生物量分配、比根长等指标的影响均不存在明显的交互作用(P0.05)。竞争处理中杉木根系形态增量均明显高于非竞争处理的单株幼苗,且随着胁迫时间的增加,根系形态增量均呈现显著的上升趋势,其中在胁迫中期和后期的增量明显高于前期,且邻株竞争处理明显提高了杉木的比根长,提升了根系觅磷的能力;随着供磷水平的提高,根表面积和根体积增量大体上呈现先上升后下降的趋势。与非竞争处理相比,竞争条件下杉木地上部生物积累量差异不明显,而根系生物量、根冠比均低于非竞争处理的单株幼苗。     

供磷水平对间套作物根系酸性磷酸酶活性的影响

选择小麦／大豆和小麦／玉米２种模式,用盆栽法和根系栽培法研究了不同供磷水平对间套作物根系酸性磷酸酶（ＡＰase)活性的影响,试验得出：间套种植种植根系Ａpase的分泌量,套作大表兄弟经单作大豆平均提高３５．９％,而小麦和玉米在间套种植时也有不同程度地提高,说明间套种植有利于土壤有机磷向有效化方向转化,大豆不论单作还是间套作其根系ＡＰase都远高于相应小麦,而小麦又高于玉米,说明大豆利用土壤的潜在的能力大于小麦,而小麦又高于玉米,可见,禾谷类的小麦与大豆间套后不但能改善小麦的氮素营养状况还使磷素营养也得以好转。     

局部供磷对玉米根系生长、磷吸收速率的影响

玉米幼苗种子根局部供磷可明显改变根系的形态。供磷区侧根生长增加,无磷区侧极生长减少。供磷区1次、2次侧根长度与2次侧根数量明显增加;而1次侧根数量则不增加。供磷区缩小时,根系生长加快,单位根区磷吸收速率增加,但单位根重磷吸收速率的增加不很明显。磷局部供应植株主要通过供磷区根系的生长来增加磷的吸收,以满足植株对磷的需求。局部供磷植株中转运到供磷根区的光合产物明显多于无磷根区。     

供磷水平对小麦幼苗利用胚乳中磷的影响

用液培方法研究不同基因型小麦苗期获取磷素的结果表明,在种子胚乳含有充足磷源时,小麦幼苗优先吸收环境中的磷,只有在缺磷条件下,小麦幼苗才利用胚乳中贮存的磷,不同基因型小麦的表现不同。     

蔗糖添加对杉木低磷胁迫响应和蔗糖代谢的影响

为了揭示低磷胁迫下蔗糖对杉木低磷胁迫响应和蔗糖代谢的影响,选用两种不同磷效率杉木家系M32和M28进行低磷胁迫下的蔗糖添加试验,分析蔗糖添加对低磷胁迫下杉木形态特征、生理特性和低磷诱导相关基因表达的影响。结果表明：蔗糖添加促进了低磷胁迫下杉木苗高、根长、根表面积、根平均直径、根体积、根叶组织蔗糖含量和根叶组织无机磷含量的增加,但仍明显低于正常供磷处理下添加蔗糖处理的杉木增量。低磷促进杉木叶中花青素的积累,而正常供磷和低磷胁迫下的蔗糖添加处理都显著促进了叶片花青素含量的增加。随着胁迫时间的延长,M28与M32在根、叶组织的蔗糖含量存在显著差异,且M28根叶组织中的蔗糖合成酶活性和蔗糖磷酸合成酶活性都高于M32。蔗糖合成酶ClSuSy在M28和M32根系中受低磷胁迫诱导下调表达,但蔗糖添加处理明显诱导ClSuSy表达量升高,M28在正常供磷并添加蔗糖处理下的ClSuSy表达量显著高于其它处理。蔗糖转运蛋白SUT4、磷转运蛋白ClPht1;4、紫色酸性磷酸酶PAP1和PAP11在M28和M32根系中总体上受低磷胁迫诱导上调表达,且受蔗糖添加处理诱导下调表达。低磷胁迫下,添加或不添加蔗糖处理的M32根系SUT4的表达量均在15d时显著升高,并在45d时回落到正常水平。ClPht1;4和PAP1在低磷胁迫15d的表达量显著高于45d时的表达量,且ClPht1;4在M32根系中的表达量远高于M28。本研究表明,蔗糖对杉木低磷胁迫响应和糖代谢有重要的影响作用,低磷胁迫下添加蔗糖处理能够在一定程度上缓解杉木低磷胁迫响应。     

部分根系供磷对黄瓜根系和幼苗生长及根系酸性磷酸酶活性影响

通过分根处理研究了部分根系供磷对黄瓜幼苗生长、植株体内的含磷量及根系酸性磷酸酶活性的影响。结果表明 ,2 0 %根系缺磷 (1条根缺磷 ,4条根供磷 )可以促进根系及植株地上部的生长 ,其根系及地上部的生物量分别是正常生长植株的 1.39倍和 1.2 1倍。2 0 %根系缺磷 ,还可以促进其它供磷根系对磷的吸收。分根处理后 ,2 0 %根系缺磷不影响植物对磷营养的需要 ,但却表现出了R/S比增大的典型缺磷反应 ,说明植物感应缺磷根系起着比地上部更为重要的作用。分根处理后不供磷根系的酸性磷酸酶活性显著高于供磷根系的酸性磷酸酶活性 ,并且根系的酸性磷酸酶活性只与根系的含磷量显著相关 ,与地上部的磷营养状况关系不明显。这说明 ,缺磷条件下 ,黄瓜植株根系分泌酸性磷酸酶活性的增高 ,是黄瓜根系对低磷胁迫的适应性机理 ,而不是地上部改善体内磷营养的调控机理。     

干旱对杉木幼苗根系构型及非结构性碳水化合物的影响

通过比较不同时期不同强度干旱胁迫下杉木1年生盆栽苗地上部分生长、根系构型以及根系中非结构性碳水化合物含量（TNC）的变化,并分析各指标之间的相关性,探究杉木根系在干旱胁迫下的适应性策略以及抗旱生理机制,以期为杉木造林生产和水分管理提供科学依据和技术指导。结果表明：随着干旱程度的加强,杉木幼苗地上部分干重（SDW）、根干重（RDW）、根长（RL）、根表面积（SA）、根体积（RV）、根尖数（RT）、根系分支角度（Angle）、分形维数（FD）逐渐减小,根冠比（R/T）逐渐增大,根系拓扑指数（TI）、根系平均直径（RD）先增大后减小,比根长（SRL）先减小后增大。而根系连接长度（LL）、TNC、糖淀比在不同时期表现出不同的趋势。连接长度随着干旱胁迫的加强在30 d和60 d时表现出逐渐增加趋势而在90 d时则表现出先减小后增大的趋势。TNC在30 d和60 d时先增大后减小,但90 d时,呈逐渐下降的趋势。糖淀比随着干旱胁迫的加强在30 d和60 d时表现出先增加后减小趋势,90 d时,表现为先减小后增大。干旱胁迫显著影响根系在不同径级的分布长度,且随着胁迫时间的延长不断变化。杉木地上部分生长与根系生长指标（RL、SA、RV、RT、RDW）以及根系构型指标（Angle、FD）之间存在显著的正相关（P < 0.01）,根系平均直径与TNC存在显著的正相关（P < 0.05）。总之,杉木通过增加根系光合产物的积累、提高根系建成成本,增加有限成本下根系的复杂程度和延伸范围,降低根系分支角度,使根系"更陡更深"来适应不同强度的干旱胁迫。     

不同小麦品种的根系生理特性,磷的吸收及利用效率对产量影？…

不同小麦品种的分蘖数、叶片数、干物量与根系总吸收面积及活跃吸收面积呈正相关,在低磷处理的相关性均达到显著水平。此各品种收获得期的干物量及籽粒产量亦与株吸磷量及利用效率呈正相关。通过各因素的比较,鉴定出在低磷条件下可获较高产量的品种。     

低磷条件下不同基因型小麦幼苗对磷的吸收和利用效率及水分的影响

 选用在土壤磷水平为5～7mgP·kg-1土的条件下筛选出来的不同磷效率的4个冬小麦品种,采用盆栽试验研究了有效磷为3．2mgP·kg-1土时的磷效率、磷吸收效率、磷利用效率及土壤水分对这些指标的影响。结果表明：在有效磷很低的土壤上,“磷高效”品种小偃54和81(85)5—3—3—3在幼苗期并未表现出较高的磷效率。尽管这两个品种的磷吸收效率显著地高于NC37和京411,但由于它们的磷利用效率相对低于京411,从而使磷效率并未显著地提高。土壤水分对4个品种的磷吸收效率和利用效率均有显著影响。     

磷高效利用杉木对低磷胁迫的适应性与内源激素的相关性

激素是植物适应逆境的重要信号物质, 从激素调控角度研究植物对养分匮乏环境的适应机制对磷高效营养基因型的选育具有重要意义。该研究通过分析被动忍受型(M1)与主动活化型(M4)两个磷高效利用杉木(Cunninghamia lanceolata)基因型在低磷胁迫下不同处理阶段的激素含量变化规律, 结合根系形态变化、干物质及养分分配规律, 研究磷高效利用杉木对低磷胁迫的适应性与内源激素的相关性。结果表明: 低磷处理下, 磷高效利用杉木M1与M4叶的激素含量与其适应特性之间无相关性, 而根系的激素含量与根系生长显著相关。低磷处理条件下, M1与M4根系中的IAA含量自27 h起表现为大于高磷对照, 且随时间延长呈增加趋势。根系中的IAA含量与根表面积、体积及根长等显著正相关, IAA的增加诱导了根系的增长, M1与M4均表现出一定的根系增长量。其中, M4存在明显的IAA由地上向基部积累的现象, M4的根系增生能力比M1更强。同时, 根系增长促使更多的干物质分配到根系, M4的根冠比在整个处理过程中均高于高磷对照。与IAA相同, M1与M4根系的ABA与GA₃含量总体也表现为低磷处理>高磷对照, 但随时间延长, 低磷条件下ABA与GA₃的含量呈下降趋势, 二者与根系增长量呈负相关关系。M1与M4根系内的ZT含量在低磷条件下也呈下降趋势, 且逐渐低于高磷对照, 而其与低磷适应特性间并无显著相关性。可见, 低磷胁迫下, 磷高效利用杉木M1与M4根系中的IAA、ABA与GA₃含量与其根系形态变化密切相关, 各器官的物质、能量、信息的综合调控是植物适应低磷逆境的重要生存策略。     

Localized supply of phosphorus induces root morphological and architectural changes of rice in split and stratified soil cultures

A localized supply of phosphorus may affect root morphology and architecture, and thereby affect phosphorus uptake by rice plants. In the present study, we attempted to test this hypothesis using two rice cultivars representing upland and lowland ecotypes grown in specially designed split and stratified soil cultures with a low-phosphorus red soil. Our data indicate that a localized supply of phosphorus increased both total root length and root fineness, particularly in the high-phosphorus zone. In split culture, plants roots tended to preferentially grow on the high-phosphorus zone, with about 70–75% of the total root length allocated to the high-phosphorus compartment. The total root length on the high-phosphorus side in the split-phosphorus treatment was significantly longer than that in the homogenously high-phosphorus treatment, implying that a phosphorus-deficiency signal from the low-phosphorus side may stimulate the growth of the roots located in the high-phosphorus zone. In stratified soil culture, changes in root morphology and architecture were also observed as indicated by increased total root length, root fineness and relative root allocation in the high-phosphorus layers, again suggesting altered root morphology and preferential root proliferation in the high-phosphorus regions. The induced changes in root morphology and architecture by localized phosphorus supply may have both physiological significance and practical implications in that plants can meet the demand for phosphorus with parts of the roots reaching the high-phosphorus zone, hence localized fertilization methods such as side dressing or banded application of phosphorus fertilizers may both minimize phosphorus fixation by the soil and increase phosphorus uptake efficiency from the fertilizers.     

异质低磷胁迫下马尾松家系根构型和磷效率的遗传变异

以7个马尾松(Pinus massoniana)一代种子园自由授粉家系为材料, 设置同质低磷(P)胁迫和异质低P胁迫模拟的盆栽试验, 系统研究马尾松家系对不同类型低P胁迫的适应机制和P效率变异规律。结果表明, 参试马尾松家系的苗高、地径和生物量等P效率指标均表现出显著的家系变异, 主要P效率指标的家系遗传力均较高, 干物质积累量的广义遗传力大于0.80, 揭示了马尾松P营养效率的较大遗传改良潜力。马尾松对不同类型低P胁迫的适应机制有所差异。在同质低P胁迫下, ‘3201’、‘1217’等高P效率家系的根系主要参数均高于低P效率家系, 表明整体根系参数的适应性变化是P效率和生物量形成的决定因素。在异质低P胁迫下, 高P效率马尾松家系在表层富P介质的根系分布量、分布比例均显著增加, 表层根系参数与马尾松家系P效率呈显著正相关, 揭示根系空间构型的适应性变化是决定马尾松高P效率的重要生物学基础。表层根系生物量、表层根相对比例的家系遗传力达0.88和0.72, 证实了以马尾松根构型的适应变化为突破口, 选育具有理想根构型和较高P效率的马尾松家系。     

模拟增温对中亚热带杉木人工林土壤磷有效性的影响

气候变暖改变与土壤磷循环相关的生物地球化学过程,对陆地生态系统磷循环产生直接或间接影响。为研究亚热带地区杉木人工林土壤磷有效性对增温的响应,开展了模拟增温实验。实验设置对照组及增温组(5℃),经过1.5a的短期增温,对杉木人工林的土壤全磷、有机磷、微生物量磷、有效磷、酸性磷酸酶活性及相关土壤理化性质进行测定,结果表明:增温处理下,土壤酸性磷酸酶活性提高约1.5倍,土壤全磷、微生物量磷以及有机磷含量分别减少了6%、34%和12%,土壤有效磷含量增加25%。可见,短期增温通过提高土壤磷酸酶活性进而促进土壤有机磷矿化和降低土壤微生物固磷量,从而增加土壤磷有效性,但是增温导致潜在可利用的土壤微生物量磷大幅度的降低,将有可能加剧亚热带杉木人工林土壤磷限制。     

模拟氮沉降对中亚热带杉木幼树根系生物量的影响

植物根系是全球陆地生态系统碳储量的重要组成部分,在全球生态系统碳循环中起着重要作用,日益加剧的氮沉降会影响根系生物量在空间和不同径级的分配,进而影响森林生态系统的生产力和土壤养分循环。以杉木幼树为研究对象,通过野外氮沉降模拟实验,研究氮沉降四年后对不同土层、不同径级根系生物量的影响。结果发现：（1）低氮和高氮处理总细根生物量较对照均无显著差异（P > 0.05）,高氮处理粗根生物量及总根系生物量较对照分别增加45%和40%（P < 0.05）;（2）与对照相比,施氮处理显著增加20-40 cm与40-60 cm土层细根和粗根生物量,且在低氮处理下,20-40 cm土层细根、粗根在总土层细根与粗根生物量的占比显著提高。（3）与对照相比,高氮处理显著增加了2-5 mm、5-10 mm及10-20 mm径级的根系生物量,低氮处理显著增加2-5 mm、5-10 mm径级根系生物量,且显著降低20-50 mm径级根系生物量。综上所述表明：氮沉降后杉木幼树通过增加较粗径级根系来增加对养分及水分的输送,同时通过增加深层根系生物量及其比例的策略来维持杉木幼树的快速生长;而根系生物量的增加,在一定程度上会增加根系碳源的输入,影响土壤碳循环过程。     

Heterogeneous nutrient supply promotes maize growth and phosphorus acquisition: additive and compensatory effects of lateral roots and root hairs

Background and AimsRoot proliferation is a response to a heterogeneous nutrient distribution. However, the growth of root hairs in response to heterogeneous nutrients and the relationship between root hairs and lateral roots remain unclear. This study aims to understand the effects of heterogeneous nutrients on root hair growth and the trade-off between root hairs and lateral roots in phosphorus (P) acquisition.MethodsNear-isogenic maize lines, the B73 wild type (WT) and the rth3 root hairless mutant, were grown in rhizoboxes with uniform or localized supply of 40 (low) or 140 (high) mg P kg⁻¹ soil.ResultsBoth WT and rth3 had nearly two-fold greater shoot biomass and P content under local than uniform treatment at low P. Significant root proliferation was observed in both WT and rth3 in the nutrient patch, with the WT accompanied by an obvious increase (from 0.7 to 1.2 mm) in root hair length. The root response ratio of rth3 was greater than that of WT at low P, but could not completely compensate for the loss of root hairs. This suggests that plants enhanced P acquisition through complementarity between lateral roots and root hairs, and thus regulated nutrient foraging and shoot growth. The disappearance of WT and rth3 root response differences at high P indicated that the P application reduced the dependence of the plants on specific root traits to obtain nutrients.ConclusionsIn addition to root proliferation, the root response to a nutrient-rich patch was also accompanied by root hair elongation. The genotypes without root hairs increased their investment in lateral roots in a nutrient-rich patch to compensate for the absence of root hairs, suggesting that plants enhanced nutrient acquisition by regulating the trade-off of complementary root traits.     

Effects of localized nitrogen supply treatments on growth and root parameters in Pinus massoniana families under phosphorus deficiency

Aims A heterogeneous spatially distribution of nutrients in natural soil may affect plant growth. The objective of this study was to determine the effects of localized nitrogen (N) supply treatments on growth traits and root parameters among different families in Pinus massoniana.Methods Five families of P. massoniana seedlings from full-sib progenies were used as test materials (1, 25, 49, 52, and 57). This study included two conditions, (i.e. homogeneous phosphorus (P) deficiency vs. heterogeneous P efficiency) among soil layers in combination with four N supply treatments in a one-year pot experiment. These N supply treatments were: (1) Homogeneously high N along the soil profile (HHH); (2) high N-high N-low N (HHL); (3) low N-low N-high N (LLH); (4) low N-low N-on side with N addition and the other side without N supply (LLH/L).Important findings This study indicated that localized N supply treatment did enhance the growth of P. massoniana, and this enhancement mainly happened in the pattern of N applied to deep soil. The results showed: 1) Compared to the homogeneous low P condition, there were increase in the growth traits and root parameters of P. massoniana under heterogeneous low P condition. Particularly, the root length and root surface area under the heterogeneous P deficiency condition were 1.95 times and 2.11 times higher than that subjected to the homogeneous P deficiency. 2) Localized N supply treatment affected seedling growth, and there was a significant interaction among N supply pattern and P condition. In compared with homogeneous N supply treatment, the height, basal diameter and dry weight of seedlings increased significantly by localized N supply treatments (LLH and/or LLH/L) under both two P deficiency conditions. But when the seedlings parameters were enhanced under homogeneous P deficiency, they were inhibited under heterogeneous P deficiency subjected to HHL. 3) Within the two P conditions, LLH and LLH/L stimulated root proliferation significantly, and root parameters were significantly enhanced under the heterogeneous P deficiency condition. Specifically, the root length and root surface area subjected to LLH/L rather than HHH were significantly enhanced by 29.2% and 32.3%, respectively. However, the length and surface area of the roots were suppressed by HHL treatment. 4). There were significant differences in response to different N supply treatments among P. massoniana families Seedlings in the families of 49, 52, and 57 responded to the localized N supply treatments with increased root proliferation, which enhanced seedling dry mass. On the other hand, the seedling growth in the family of 25 were stimulated by N and (or) P concentration, while the response of seedlings in the family of 1 to local nitrogen supply was relatively slow and exhibited growth retardation.     

杉木根系和凋落物对土壤微生物学性质的影响

通过模拟试验,研究了杉木根系和凋落物及其交互作用对土壤微生物学性质的影响.结果表明：杉木根系和凋落物在土壤生态过程中发挥的作用有所不同.与对照相比,杉木根系处理的土壤微生物生物量碳（MBC）、土壤基础呼吸、土壤有机碳（TOC）和微生物熵显著增加,土壤呼吸熵（qCO₂）显著降低（P<0.05）;凋落物处理中,仅土壤基础呼吸和qCO₂显著降低（P<0.05）,而MBC、TOC和微生物熵没有显著变化（P>0.05）.杉木根系和凋落物对土壤基础呼吸和qCO₂的影响具有显著的交互作用.qCO₂与土壤可溶性碳（R²=0.325）及TOC（R²=0.209）含量呈显著正相关,说明微生物对碳的利用效率随土壤有机碳数量的增加而降低.与凋落物相比,杉木根系在土壤生态过程中发挥着更重要的作用.     

杉木根系分泌物化感作用研究

对一代杉木纯林、二代杉木纯林和杉楠混交林中杉木根系分泌物化感作用进行了研究 ,结果表明 3种林分杉木根系分泌物都降低了杉木幼苗的鲜重、胚根长度和胚芽长度 ,抑制了杉木幼苗的生长。其中不同林分类型的杉木根系分泌液对杉木种子幼苗生长的抑制程度之间的关系是 :一代≈二代 >混交。