盐胁迫下4种耐盐植物渗透调节物质积累的比较

为探索不同类型耐盐植物在盐胁迫下体内渗透调节机制,以沙柳、沙枣、柽柳和西伯利亚白刺为研究材料,研究了不同盐浓度(0、100、200、300 mmol·L^-1NaCl)处理下4种耐盐植物体内无机离子和有机溶质含量的变化,比较了其在植物渗透调节中的作用。结果表明:(1)盐处理后4种植物体内Na⁺、Cl^-含量均上升,K⁺、Ca²⁺、Mg²⁺离子含量呈下降趋势;(2)稀盐型盐生植物白刺与泌盐型盐生植物柽柳以Na⁺为主要无机渗透调节物质,拒盐型耐盐植物沙枣与沙柳以K⁺为主要无机渗透调节物质;(3)可溶性糖是4种植物盐胁迫下共同的有机渗透调节物质,对沙柳和沙枣尤为重要;在高盐浓度(≥ 200 mmol·L^-1NaCl)下,脯氨酸是沙枣叶片中重要的有机渗透调节剂;白刺叶片中甜菜碱含量随盐浓度升高明显增加,对提高白刺耐盐能力具有重要作用。4种不同类型耐盐植物在盐渍环境胁迫下所积累的渗透调节物质种类与数量差异明显,渗透调节方式与耐盐机制不同。     

脱硫石膏改良龟裂碱土对枸杞根际土壤理化性质及根系生长的影响

In this study, the rhizosphere soil properties of Takyr Solonetzs ameliorated with FGDG, and its effect on root growth of Lycium barbarum were studied. The results indicated that with increasing applications of FGDG, the contents of Na⁺, K⁺, Mg²⁺, Cl^-, and HCO₃^- in rhizosphere soil decreased gradually with the ratio of 51.9%, 16.7%, 42.7%, 44.7% and 28.2%, respectively, while the contents of Ca²⁺ and SO₄^2- showed an increasing trend and increased by 96.9% and 80.4% compared with those of the CK. As the content of exchangeable Na⁺ decreased with the increasing application of FGDG, the exchangeable sodium percentage (ESP) and soil pH values decreased from 32.2% and 10.5 to 18.1% and 7.82, respectively and thus the soil physical properties improved. However, the lowest total salt content (2.91 g·kg^-1) was found in T2 (2.5 t/(667m²)), and similarly, the highest values of taproot length (44.78 cm), root surface area(179.97 cm²) and root dry weight (17.53 g) were also found in T2, which suggested that applications of FGDG were not always positively correlated with soil reclamation, and excessive amount of FGDG would inhibit root’s growth. Overall, application of FGDG is effective in ameliorating Takyr Solonetzs, but high amount of FGDG would result in excess salts against root growth and subsequently influence production.     

油茶无性系新梢生长期光合特性的研究

以油茶无性系高产品种、中产品种和普通品种为试材,采用LI-6400P便携式光合测定系统在新梢生长期对其净光合速率、蒸腾速率等日变化规律及光合-光响应曲线进行了比较研究。结果表明:3个品种净光合速率日变化曲线存在单峰和双峰两种类型,高产品种与中产品种为单峰型,普通品种为双峰型,普通品种存在明显的光合午休现象,3个品种的净光合速率存在显著差异;3个品种上、下部叶片的蒸腾速率的日变化曲线均为单峰型,水分利用效率的日变化曲线均为"U"型;3个品种的最大净光合速率在8.404 - 10.879 μmol·m^-2·s^-1之间,光饱和点在305 - 318 μmol·m^-2·s^-1之间,光补偿点在24 - 53 μmol·m^-2·s^-1之间;逐步回归分析表明,影响高产品种叶片净光合速率的主导因子为气孔导度、胞间CO₂浓度和相对湿度;气孔导度是影响中产品种净光合速率的主导因子,普通品种净光合速率主要受气孔导度和胞间CO₂浓度的影响。     

NaCl胁迫对构树幼苗叶片水势、光合作用及Na^＋、K^＋吸收和分配的影响

将1年生构树幼苗置于不同NaCl浓度的土壤下,就其叶片水势、光合特性、Na+、K+在不同器官的吸收和分配对盐胁迫响应进行研究.结果显示:当土壤NaCl浓度大于3 g·kg-1,构树幼苗叶片的水势显著降低.构树幼苗净光合速率、蒸腾速率及气孔导度随土壤NaCl浓度的增加而下降,净光合速率下降的主要因素是非气孔限制.在盐胁迫下构树选择Na+而排斥K+,叶片中积累的Na+大于根系,这与多数非盐生植物所具有的排钠特性不同.盐胁迫下净光合速率与叶片水势旱显著的正相关,叶片中Na+、K+含量与叶片的水势分别成显著的负相关和正相关.     

黄牡丹花粉生活力测定方法的比较研究

以黄牡丹的新鲜花粉为试材,利用单因子试验比较了液体培养基中蔗糖浓度、硼、钙、镁、钾对黄牡丹花粉萌发的影响,在此基础上进行了正交试验,比较了蔗糖、H₃BO₃及CaCl₂对黄牡丹花粉萌发的影响;通过对醋酸洋红染色法、I-KI染色法和TTC染色法的比较,寻找快速测定黄牡丹花粉生活力的方法。试验结果表明:蔗糖及H₃BO₃对黄牡丹花粉萌发有极显著影响。在pH值为6.0时,蔗糖150 g·L^-1+H₃BO₃30 mg·L^-1+CaCl₂20 mg·L^-1适宜黄牡丹花粉培养,萌发率为68.7%;纯水培养没有造成花粉原生质体破裂,内含物外流,但萌发率极低,仅为3%;200 g·L^-1以上的高浓度蔗糖溶液和300 mg·L^-1以上的高浓度盐溶液会造成原生质体失水萎缩,质壁分离,这两种情况都抑制花粉萌发;TTC染色法测得的花粉活力率为64.9%,是快速测定黄牡丹花粉生活力的最适染色法。     

施肥配比与芸苔素内酯对油茶生长的影响研究

采用L₉(3⁴)正交试验设计,分别对长林系列3个优良油茶无性系进行施肥配比和叶面喷施芸苔素内酯(BR)试验研究,结果表明:(1)油茶品种是影响油茶各项生长指标的最根本的因素;(2)各因子对地径、冠幅、产量和净光合作用影响权重依次是品种、因子间互作、施肥和芸苔素内酯,施肥对叶绿度影响比因子间互作影响大,而对高生长影响刚好相反;对出籽率影响依次是品种、施肥、芸苔素内酯及因子间互作;(3)18号品系、N₂P₂K₂和0.067 mg·L^-1 芸苔素内酯浓度组合时,树高、冠幅和出籽率表现最好;4号品系、N₁P₁K₁和0.067 mg·L^-1芸苔素内酯组合时,地径增长、叶绿度和产量最大;4号品系、N₂P₂K₂和0.033 mg·L^-1芸苔素内酯组合时,日均净光合速率最大。     

NaCl胁迫对五叶地锦生长及某些生理特性的影响

用不同浓度的NaCl处理五叶地锦扦插苗 ,研究了盐胁迫对五叶地锦生长及生理特性的影响。结果表明 :小于 5 0mmol·L- 1 的NaCl处理 ,对五叶地锦生长及生理特性没有明显的影响 ;等于或大于 10 0mmol·L- 1 的NaCl处理 ,对五叶地锦的生长有明显的抑制作用 ,而且光合速率、蒸腾速率、气孔导度等生理指标值急剧降低 ,膜相对透性、MDA含量等指标明显增高。由此可以认为 ,10 0mmol·L- 1 NaCl是五叶地锦盐胁迫伤害的阈值。NaCl胁迫下光合作用的下降与膜的伤害、细胞内K 、Ca2 、Na 3种离子平衡关系破坏及糖的反馈性抑制有关 ,而与气孔导度和胞间CO2 浓度无关。盐胁迫下 ,叶片中可溶性糖、脯氨酸以及K、Ca、Na等 3种元素的含量增高。五叶地锦可能通过离子浓度和可溶性糖浓度的提高进行适度的渗透调节 ,以适应NaCl的胁迫。     

宁夏六盘山香水河小流域华北落叶松人工林乔木层生物量的坡面变化和尺度效应

生物量受坡面环境条件变化影响而有坡面变化与尺度效应。本文在六盘山半湿润区的香水河小流域选择了33 a生华北落叶松人工林的一个斜坡长480 m,水平长398 m的典型坡面,在整个坡面上建立了宽30 m的调查样带,均匀分为空间连续的16个样地,在2014年生长季中期调查不同坡位的样地生物量,分析其坡面变化规律。结果表明:生物量存在明显的坡位差异。坡面生物量t·hm^-2平均值为118.59,其变化范围为96.19 139.18,变幅为42.99,变异系数为0.12;随着离坡顶距离的增加,生物量总体上呈现先升高后降低的变化趋势,在坡面的中上部(水平坡长为87.71 m)达到最大。生物量存在坡面空间尺度效应,即随着相对坡长(X₁)的增加,生物量的顺坡滑动平均值(Y₁)先增大后减小,其回归关系式为:Y₁=23.004X₁³-60.834X₁²+31.786X₁+123.43(R²=0.84),坡面尺度效应表现为每100 m水平坡长生物量变化的数值为6.12 t·hm^-2;各样地生物量与整个坡面平均值的比值(Y₂,小数)随相对坡长有很好的非线性关系,基本上呈先增加后下降、后趋于稳定的变化趋势,其关系式为Y₂=1.722 6X₁³-2.844 5X₁²+1.033 8X₁+1.000 1(R²=0.57),可基于此将特定坡位样地的生物量换算成整个坡面的估算值。造成生物量坡面变化的主要原因是太阳辐射和光照时间随海拔的变化等多种因素造成的。     

NaCl胁迫对不同种源海州常山生长及离子吸收、分配与运输的影响

以江西萍乡、山东平度、江苏盐城3个种源地的海州常山组织培养苗为材料,采用不同浓度NaCl进行胁迫处理,分析其对海州常山生长、离子选择吸收和运输的影响,探讨不同种源海州常山的耐盐差异和耐盐机理。结果表明:(1)NaCl胁迫下,海州常山生物量下降,含水量降低,生长受到抑制;(2)随着NaCl浓度上升,Na~+的吸收为先升后降,高浓度NaCl胁迫下,江西萍乡种源Na~+主要集中在叶柄中,而山东平度种源Na~+主要集中在茎部;K~+含量随着NaCl胁迫的增加呈下降的趋势,在叶片中含量较高;K~+/Na~+随NaCl浓度的增加呈下降趋势;(3)随着NaCl浓度增加,根系选择吸收系数SAK,Na、离子运输系数STK,Na先增后降(山东平度茎秆运输除外),总体而言,盐城种源SAK,Na,STK,Na的值大于其他种源,根抑制Na~+、促进K~+向地上部运输的能力也较其他种源强。综合分析表明:高浓度的盐胁迫对不同种源均产生不利影响,造成植物体内盐离子积累,但盐城种源保持体内离子平衡能力和耐盐性高于其他种源。     

涝渍胁迫对转多基因库安托杨生长及生理性状的影响

以库安托杨转多基因株系(D5-9、D5-18、D5-19、D5-20、D5-21、D5-24、D5-26)和未转化株系(对照CK)为试材,研究不同水分处理(水涝胁迫、浸渍胁迫、正常供水)对其生长及生理性状的影响。结果表明:随着胁迫的加剧,各株系株高、根系生长和生物量累积呈下降趋势,而地径生长有所增加。浸渍、水涝胁迫下对照株系的净光合速率均最低,分别为11.99、10.37 μmol·m^-2·s^-1,比正常供水分别减少了14.0%和25.6%;浸渍胁迫下D5-26的净光合速率最高,为13.95 μmol·m^-2·s^-1;水涝胁迫下D5-19的净光合速率最高为12.01 μmol·m^-2·s^-1。蒸腾速率、水分利用效率、气孔限制值、叶绿素a、叶绿素b和总叶绿素含量均下降,叶绿素a的降幅小于叶绿素b,叶绿素a/b值先降后升,而气孔导度和细胞间隙CO₂浓度增大。PSⅡ的实际光化学效率、电子传递速率、潜在光化学活性和最大光化学效率均降低,初始荧光产量和最大荧光产量增加。涝渍胁迫对所有供试材料的生长及光合、叶绿素荧光等生理性状均有影响,但对转多基因株系的影响明显较对照小,且株系间存在差异。以生长、光合参数和叶绿素荧光参数为指标对供试材料进行综合评价,各株系的抗涝能力从高到低的排序为:D5-26>D5-19>D5-18>D5-21>D5-9>D5-20>D5-24>CK。     

NaCl胁迫下沙枣幼苗的离子代谢特性

[Objective]To further understand the ion metabolism characteristics of Elaeagnus angustifolia L. under NaCl stress.[Method]The seedlings of two E. angustifolia L. provenances, which were Alaer (salt tolerance provenance) and Yinchuan (salt sensitive provenance), were treated by three NaCl concentrations (0,150,300 mmol·L^-1) and sampled at the 7th day and the 30th day to measure the Na⁺ , K⁺, Ca²⁺, and Mg²⁺ contents, K⁺/Na⁺ ratio and selective absorption and transportation of K⁺ in tissues (roots, stems and leaves). [Result]The results showed that the Na⁺ content in the organizations of E. angustifolia L. sharply increased with the increase of NaCl concentration. With prolonging of stress time, the Na⁺ content increased in roots, and decreased in stems and leaves. After seedlings of the two provenances were treated with 150 mmol·L^-1 NaCl for 7 days, the Na⁺ content was 2.10 times and 2.23 times in leaves, respectively, compared with the control groups, and was 1.79 times and 1.57 times in root. Meanwhile, the difference between two provenances showed a expanding trend with the increase of NaCl concentration and stress time. With the increase of NaCl concentration and extension of stress time, the K⁺ content, Ca²⁺ content and K⁺/Na⁺ ratio in organizations decreased gradually. Meanwhile, the Alaer provenance seedlings accumulated more Na⁺ in roots and less Na⁺ in leaves than that of Yinchuan provenance, and the K⁺ content, Ca²⁺ content and K⁺/Na⁺ ratio decreased less in the Alaer provenance seedlings than those of Yinchuan provenance. With the increase of NaCl concentration, the Mg²⁺ content in leaf gradually decrease, but the Mg²⁺ content in root increased 22.8~64.4% after salt stress for 7 days, and Alaer provenance seedlings increased more than Yinchuan provenance. After 30 days, there was non-significant difference with the control group on the Mg²⁺ content of root. K⁺ selective absorption of E. angustifolia L. seedlings significantly increased with increasing salt concentration of the media at the 7th days, whereas not obvious at the 30th days. When the concentration of NaCl in the media increased, the change of K⁺ selective transportation was not significant. [Conclusion]E. angustifolia L. seedlings increase Mg²⁺ content and K⁺ selective absorption in the roots at the early stage of salt stress to adapt saline environment. The salt-tolerance E. angustifolia L. provenance can cut off more Na⁺ in roots and reduce Na⁺ content in leaves, which cause less K⁺, Ca²⁺ and Mg²⁺ contents loss, especially the roots and leaves, so as to ensure that all kinds of metabolisms can go well.     

短期NaCl胁迫对西伯利亚白刺幼苗Na~+、K~+分配和平衡的影响

[目的]为探究西伯利亚白刺盐适应机制。[方法]以1年生西伯利亚白刺水培幼苗为材料,研究不同浓度NaCl(0、200、300 mmol·L-1)胁迫24 h后根系Na~+、K~+离子流的动态变化(利用扫描离子选择微电极技术,SIET)及植株各器官中Na~+、K~+含量的静态变化(利用电感耦合等离子体光谱仪,ICP-OES)。[结果]表明:(1)短期NaCl胁迫显著提高了西伯利亚白刺根、茎、叶中Na~+含量,其中,叶中Na~+含量是根中的3倍以上;西伯利亚白刺根、茎、叶中K~+含量保持稳定或上升;(2)盐胁迫下,西伯利亚白刺根、茎、叶中K~+/Na~+呈下降趋势,其中,在200、300 mmol·L-1NaCl胁迫下,根中K~+/Na~+差异不显著;(3)离子流结果显示,NaCl胁迫显著提高了西伯利亚白刺根系Na~+的外流;对照和200 mmol·L-1NaCl胁迫下,K~+净流量分别为156、159 pmol·cm-2·s-1,差异不显著;300 mmol·L-1NaCl胁迫显著提高了K~+的内流,净流量为-370 pmol·cm-2·s-1。[结论]综合分析认为,西伯利亚白刺通过叶片对Na~+区隔,加强根系对Na~+的外排和K~+内流,进而维持植株根系K~+/Na~+的相对平衡,以此适应盐渍环境。     

盐胁迫对红楠幼苗生长及Na+、K+吸收和分布的影响

In order to explore the salt tolerance mechanism of Machilus thunbergii, the effects of salt stress on seedling biomass, root morphology, sodium and potassium absorption and distribution were studied. The results showed that the above-ground biomass increased slightly under lower salt stress conditions, while the below-ground biomass, root length and root surface area showed a downtrend. The above-ground growth was limited under high concentration salt stress, while the under-ground growth was not subject to significant restrictions. The absorption of Na⁺ in root increased under salt stress, but that of K⁺ decreased. The ability of Na⁺ transporting from root to leaf and stem was weakened. The accumulation of Na⁺ in stem and leaves was less. With the decreased absorption of K⁺, the ratio of Na⁺/K⁺ also continuously increased. With the increased concentration of salt stress, the ability of K⁺ absorption in roots increased. The ability of K⁺ transporting from root to leaf and stem was enhanced, which resulted in significant increase of K⁺ in the leaves and stem. The accumulation of Na⁺ in the under-ground was significantly greater than that in above-ground, while the K⁺ content in above-ground increased significantly, which played a key role in maintaining normal growth and metabolism of M. thunbergii.     

盐胁迫下11个树种生理特性及其耐盐性研究

以11个树种实生幼苗为材料,用不同浓度(0、3、5、8、10 g·kg-1)NaCl溶液进行浇灌处理,研究了盐胁迫下各树种的生理特性,并运用隶属函数法对其耐盐性进行综合评定,结果表明:(1)随着盐胁迫浓度的增加,各树种的叶绿素含量下降,脯氨酸含量增加,可溶性糖含量和质膜透性在树种间差异较大;(2)盐处理后,不同部位(根、茎和叶)Na 含量明显增加,K 含量随树种不同表现各异,K /Na 比值均呈下降趋势,且根中Na 含量明显比叶中的高;(3)日本丁香、银水牛果、榆桔和三裂叶漆的耐盐碱能力较强,豆梨、欧洲荚蒾、沃氏金链花及鹰爪豆具有中高度耐盐碱能力,而金雀儿、甜桦和光叶漆稍差,具有中度耐盐性.本研究为11个树种耐盐性标准的制订及其推广应用提供了理论依据.     

Effect of NaCl stress on ion distribution in roots and growth of Cyclocarya paliurus seedlings

We studied ion distribution in roots and the growth of Cyclocarya paliurus seedlings of three provenances, Huangshan in Anhui, Jiujiang in Jiangxi and Kunming in Yunnan, under conditions of 0, 1, 3 and 5 g/L NaCl stress using X-ray microanalysis. Results show that under NaCl stress of 3 and 5 g/L, the relative contents of Na⁺ and Cl⁻ in root tissues increased, while the relative contents of K⁺, Ca²⁺ and Mg²⁺ decreased. With an increase in salinity, the relative content of Na⁺ in the epidermis and cortex of the root increased, while the relative content of Cl⁻ in the stele and cortex of the root increased markedly. Thus, ions in the root tissues were unbalanced and the ratios K⁺/Na⁺ and Ca²⁺/Na⁺ decreased, while Na⁺/(K⁺+ Na⁺+Ca²⁺+Mg²⁺) increased. The decrease of the K⁺/Na⁺ ratio and the substantial increase of Cl⁻ in root tissues contributed to a decline in seedlings survival and reduced the increments for seedling leaf area, height, basal diameter as well biomass. Our preliminary conclusion is that the level of salt tolerance for the tested provenance seedlings was in the order of Huangshan > Kunming > Jiujiang, and the threshold of salt tolerance for C. paliurus seedlings was about 1 g/L. __________ Translated from Scientia Silvae Sinica, 2008, 44(6): 66–72 [틫自: 쇖튵뿆톧]     

Chemical content and seasonal variation of throughfall and litterflow under individual trees in the Hyrcanian forests of Iran

We assessed the effect of seasons and the tree species velvet maple (Acer velutinum Boiss), Hainbuche hornbeam (Carpinus betulus L.) and chestnut-leaved oak (Quercus castanefolia C. A. Mey.; Fagaceae) on nutrient fluxes (Na⁺, K⁺ and Ca²⁺) in throughfall (TF) and litter flow (LF) from January 2012 to February 2013. Potassium (K⁺) and calcium (Ca²⁺) in total TF and LF over the measurement period significantly differed between 3 the species (p < 0.05). Maple and oak trees had significantly higher fluxes of K⁺ and Ca²⁺ in their TF, respectively. The average quantity of nutrients in LF was significantly higher in the leafy season than in the leafless season for all cations except for Na⁺. Under velvet maple trees, the average flux of nutrients (Na⁺, K⁺, and Ca²⁺) in TF was significantly higher than LF. Lastly, leaching of potassium (K⁺) and calcium (Ca²⁺) in LF during the measurement period was significantly lower than TF under the hornbeam trees. Our results suggest that different tree species may impact the nutrient availability and possibly the sustainability of Hyrcanian forests. Further research is needed to determine how managing different species will affect the long-term nutrient status of these forests.     

盐胁迫对16种幼苗渗透调节物质的影响

采用盆栽的方法,对16种2年生幼苗盐(NaCl)胁迫40 d,并进行耐盐性研究。结果表明:随盐浓度的升高,各树种的脯氨酸、可溶性糖和甜菜碱含量均呈上升趋势,在400 mmol·L-1盐浓度下,沙枣和水蜡的脯氨酸含量比对照分别增加了662.0%和562.8%,而可溶性蛋白含量在各树种间差异较大;Na+和Cl-含量在不同部位(根、茎和叶)均随盐浓度增加而增加,鞑靼忍冬、药鼠李、风箱树和醉鱼草叶片中Na+含量增加了5 20倍。K+和Ca2+含量随树种不同表现各异。综合各树种盐害症状和渗透调节物质变化特性,认为柽柳、唐古特白刺、西伯利亚白刺、卫矛和沙柳具有高度耐盐性,水蜡、沙枣、糖朴、美国皂荚和药鼠李具有中高度耐盐性,杜梨、竹柳、鞑靼忍冬、醉鱼草、风箱树和美国白蜡具有中度耐盐性。脯氨酸、可溶性糖和矿质元素含量(尤其是Na+、K+和Cl-)的变化对植物耐盐能力的影响较普遍也较大。     

Response of five tree species to salinity and waterlogging: shoot and root biomass and relationships with leaf and root ion concentrations

Unproductive saline and waterlogged (WT) wastelands could be beneficially transformed into agroforestry systems using trees tolerant to these stresses. We studied the salinity and waterlogging tolerance of five Australian tree species (Acacia salicina, Casuarina glauca, Casuarina obesa, Eucalyptus camaldulensis and Eucalyptus occidentalis) during seedling stage and their relationships with root and leaf ion concentrations. 8-month old plants were exposed for 5 months to five irrigation water salinity treatments (EC values between 2 and 22 dS m^?1) and two waterlogging treatments (drained or WT). The salinity tolerance of the five species was high, although decreased in WT conditions. Irrespective of salinity, the two Casuarina species were more tolerant and the other three species were less tolerant to WT than drained conditions. In all species, salinity and waterlogging increased leaf Cl^? and Na⁺ and decreased leaf Ca²⁺, but not leaf K⁺. Root Cl^? and Na⁺ increased with salinity but not with waterlogging. Salinity tolerance was negatively correlated with Cl^? and Na⁺ leaf accumulation rates per unit increase in salinity. Waterlogging reduced the ability of the seedlings to exclude Cl^? and Na⁺ from the leaves. The two most salt tolerant Casuarina species under both drained and WT conditions showed the highest leaf Cl^? and Na⁺ exclusion and the highest root Cl^? and Na⁺ accumulation, suggesting that sequestration of these toxic ions in their roots was a significant salt-tolerant mechanism. Revegetation of saline and WT wastelands with these tolerant Casuarina species could be profitably used for biomass, biofuel and renewable energy production.     

Recovery of Soil pH,Cation-exchange Capacity and the Saturation of Exchange Sites from Stemflow-induced Soil Acidification in Three Swedish Beech (Fagus sylvatica L.) Forests

Stemflow water acidifies the soil in beech stands impacted by atmospheric deposition. To investigate whether the soil recovers from acidification, stemflow was experimentally removed. A horizon material was sampled at a distance of 10 - 250 cm from the stems. Before the onset of the experiment, there were stemflow - induced gradients in the saturation of exchange sites with K⁺, H⁺ and Na⁺ that were larger near the stems, while the pHKCl, the cation - exchange capacity, and the saturation with Ca2⁺, Mg2⁺ and Mn2⁺ were smaller. After 8 yrs of recovery, the pHKCl and the saturation with Ca2⁺ and Mg2⁺ had increased close to the stems, while the saturation with Na⁺, H⁺, Mn2⁺ and 2⁺ and the C/N ratio had decreased. With some exceptions, e.g. base saturation, the recovery was not complete after 8 yrs. Soil far from stems had also changed similarly, probably because of the ongoing decrease in overall deposition in southern Sweden.     

重庆酸雨区缙云山典型林分冠层酸雨淋洗特征

选取重庆缙云山的针阔混交林、常绿阔叶林、毛竹林、灌木林4种典型林分,观测酸性降水过程中林外雨、穿透雨及干流等林内水分转换分量中的主要离子含量变化,分析林分冠层对雨水化学组成的影响,结果表明:(1)降雨中的离子当量浓度大小依次是SO42-＞Ca2+＞ NH4+＞Mg2+＞K+＞Na+＞NO3-;(2)降雨经过林冠层后pH值降低,干流的酸化程度增加最大;(3)降雨经林冠层后离子浓度明显增加(除灌木林),穿透雨中通量增加最大的阴离子和阳离子分别为SO42-(2.19×103～6.47×103 eq·hm-2)和Ca2+(1.41×103～3.39×103 eq-hm-2),离子来源主要为大气沉降和植物分泌物或淋出;(4)同一离子在不同林分的干流和穿透雨中的通量变化不同,反映出不同林分冠层的离子交换性差异.在针阔混交林中,林下降雨净淋溶量大小顺序为SO42-＞Ca2+＞ NO3-＞K+＞NH4+＞Mg2+＞ Na+;常绿阔叶林为SO42-＞ Ca2+＞ K+＞NO3-＞ NH4+＞ Mg2+ ＞Na+;毛竹林为Ca2+＞ SO42-＞ K+＞NO3-＞ NH4+＞Na+＞Mg2+;灌木林为Ca2+＞ NO3-＞ K+＞ Na+＞Mg2+＞ NH4+＞ SO42-.