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1.
侧柏树干边材液流的空间变化规律及其相关因子 总被引:16,自引:1,他引:15
利用树干边材液流探针(TDP)和微型自动气象站对北京西山地区侧柏人工林树干秋季不同高度、不同方位、不同径阶边材液流及相关环境因子日周期变化动态进行连续观测,对环境因子与边材液流速率的相关性进行分析.结果表明:同一立木,树干上位边材液流启动早,上升快,到达峰值后随即急剧下降;树干下位边材液流启动时间明显推迟,且上升和下降缓慢;二者之间最大液流速率相差2倍以上.树干不同方位边材液流速率日变化进程有差异,其中南侧树干边材液流速率很低,北侧、西侧和东侧3个方位液流速率较高,边材液流速率与测定部位的边材宽度和冠幅关系不明确.单株树干边材液流速率与树干冠幅、树干直径和边材面积相关不显著,但液流通量随直径的增大而增大,不同径阶单木液流通量波动规律不尽相同.侧柏林分内部环境因子日周期变化规律明显,边材液流速率与主要环境因子相关显著,其中边材液流速率与空气湿度呈负相关,各径阶表现出相同的趋势;边材液流速率与太阳辐射强度和空气温度之间存在极显著的相关性,胸径大的立木呈正相关,胸径小的单株呈负相关;风速对边材液流速率有较大影响;20~40cm土壤层温度对树木耗水有显著的影响,大径阶立木表现为负相关,小径阶立木表现为正相关.以太阳辐射强度、气温、空气湿度、风速、不同层次土温等环境因子作自变量,以边材液流速率作因变量,经过逐步回归,建立侧柏边材液流速率与环境因子的多元线性模型,回归方程极显著. 相似文献
2.
利用热扩散式树干茎流仪于2010年5~10月对辽宁北票市刺槐树干液流进行连续观测。结果表明:刺槐边材液流速率日变化呈单峰曲线,8月液流速率最高,液流高峰维持时间6.5 h左右,曲线呈宽峰型。6月份液流速率居中,但液流高峰维持的时间较长7 h左右,曲线为宽峰型。10月液流速率最低,液流高峰维持时间最短4 h左右,曲线为窄峰型;刺槐平均液流速率8月〉6月〉7月〉9月〉10月;立地条件对刺槐树干液流影响较大,平均液流速率为缓坡〉谷底〉陡坡,单株日平均耗水量为谷底〉缓坡〉陡坡。径阶对液流速率影响不显著,但对耗水量有显著影响,总体上呈现出径阶越大耗水量越高的趋势。 相似文献
3.
为探明国槐Sophora japonica组织含水量、水势、水容等枝叶水分特征及其对树干边材液流的调节和影响,于2007年3月下旬至2008年3月下旬利用热扩散式边材液流检测技术(TDP)、压力室技术等对生长在北京林业大学校园内的国槐树干边材液流、组织含水量、水势、水容等进行了系统研究。结果表明:城市环境下,(1)国槐树干边材液流速率日变化春季和夏季呈双峰曲线,秋季呈单峰曲线;液流峰值出现时间春季最早,夏季次之,秋季最晚;春季和秋季液流速率峰值较夏季高,但峰值维持时间夏季较春、秋两季长。(2)国槐枝条与叶片绝对含水量、水势、水容具有相似的日变化规律,但不同季节日变化有所差异。(3)整个生长季,国槐含水量、水势、水容的大小排序为春季夏季秋季;枝条平均含水量(52.12±2.59)%叶片平均含水量(69.59±4.64)%;枝条平均水势(-1.70±0.74)MPa叶片平均水势(-1.87±0.65)MPa;枝条水容(1.488±3.060)g.cm-3.MPa-1叶片水容(5.86±6.70)×10-3g.cm-3.MPa-1。(4)国槐组织水容日变化与树干边材液流速率日变化反向相关,国槐枝叶含水量、水势、水容等共同作用和调节其蒸腾耗水。 相似文献
4.
油松、侧柏深秋边材木质部液流变化规律的研究 总被引:52,自引:11,他引:52
利用热扩散式边材液流探针和多种气象、土壤因子传感器组成的全自动数据采集系统 ,于深秋季节对北京西山地区低山成龄油松和侧柏林内单株边材液流速率、单木整株耗水量连日变化进行了系统观测。油松和侧柏边材液流每日 8:0 0以后启动 ,并逐渐增强 ,至 13:0 0~ 15 :0 0前后达到高峰 ,然后下降 ,18:0 0以后液流运移缓慢 ,至来日日出前后达到最低值。相同测定部位的边材液流速率 ,侧柏明显高于油松。油松树干不同部位边材液流日变化和连日变化趋势相同 ,但上部边材液流启动早 ,上升幅度大 ,到达峰值后即急剧下降 ,峰形窄而高 ;下部边材液流较上部明显延迟 ,且峰形平缓 ,峰值较低 ;测定期间油松树干上位和下位累计日周期和累计连日边材液流通量基本相同。进入 11月以后 ,单株日耗水量逐日降低 ,11月 6日油松日耗水量下降为 5d以前的 1 5 ,同期侧柏日耗水量已近于 0。油松和侧柏单木日耗水模型为三次曲线。边材液流的连日变化深受太阳辐射、气温、空气相对湿度、风速、土壤温度等因子的影响。利用线性回归方法建立了边材液流速率与环境因子关系的多元线性模型 ,影响边材液流速率的主导因子是 5cm和 2 0cm土壤温度、太阳辐射强度、空气湿度和风速。回归方程达到极显著水平。 相似文献
5.
华北石质山区乔、灌木耗水特征比较 总被引:1,自引:0,他引:1
本研究采用热扩散式液流探针(TDP)法对华北石质山区黄连木、刺槐、酸枣、荆条的树干液流进行了监测。结果表明:(1)4树种的树干液流均呈现"几"字形,其中黄连木呈单峰型,刺槐呈宽峰型,酸枣荆条呈波动状;液流启动黄连木的最早,酸枣和荆条的居中,刺槐最晚;液流停滞黄连木和刺槐晚于酸枣和荆条;液流速度大小为:黄连木〉酸枣〉荆条〉刺槐,日均耗水量为:黄连木〉刺槐〉酸枣〉荆条。(2)4树种树干液流变化阴天时要比晴天时平缓,液流启动晴天早于阴天,而停滞则晴天晚于阴天。(3)不同树干直径的各树种树干液流变化波形基本一致;黄连木树干液流直径大的启动晚,而停滞早,而刺槐则相反;酸枣和荆条不同直径的液流启动与停滞时间几乎一致;除刺槐外,各树种树干液流速度均表现为直径大的小于直径小的,而刺槐则相反;各树种日均耗水量均表现树干直径大的耗水量大。 相似文献
6.
以北京沙地107欧美杨(Populus×euramericanacv."74/76")人工林为研究对象,采用热扩散式探针(TDP)于生长季测定杨树在1d内不同时间和不同方位的液流速率和耗水量,分析杨树水分利用的日变化规律。结果表明:杨树树干东侧液流速率开始增大时间早于西侧1h左右,降低时间早于西侧40min,日周期耗水昼夜间没有明显的停止界限;杨树单木日耗水量与树干胸径和边材面积存在极显著的正相关性(Sig=0.01),相关系数分别为0.8790和0.8860;沙地杨树单木水分消耗量(蒸腾量)为8.44kg/d左右。从时间和方位尺度上了解杨树耗水特征,对北京市及河北坝上地区杨树人工林的经营管理有重要意义。 相似文献
7.
黄土高原半干旱区人工林刺槐展叶期树干液流动态分析 总被引:8,自引:0,他引:8
应用热扩散式树干茎流计(TDP)于2008年4月26日至5月31日,在黄土高原半干旱区安塞县对人工林刺槐展叶期树干液流及其气象、土壤水分等6个指标进行连续测定.结果表明:刺槐展叶期可分为芽期、展叶初期、中期和全叶期.在芽期,刺槐树干液流速率日变化无明显昼夜波动;在展叶初期至全叶期日变化呈现出从微弱波动逐渐增大到趋于平稳的剧烈波动;在展叶中期以后液流速率表现为上升快、下降缓慢的单峰曲线;在全叶期平均峰值约为0.002 7 cm·s-1;树干液流速率与光合有效辐射强度、大气温度、水蒸气压亏缺和风速呈极显著正相关,与相对湿度呈负相关,其相关程度依次为光合有效辐射强度>大气温度>水蒸气压亏缺>相对湿度>风速,且可用光合有效辐射强度和大气温度线性表达式来估测;土壤水分在展叶期呈逐渐减少趋势,但对树干液流的胁迫不显著;在展叶期刺槐单株日蒸腾耗水量随直径的增大而增大并与胸径呈良好的线性关系,可用来估算展叶期刺槐人工林蒸腾耗水量. 相似文献
8.
Study on the Sap Flow Characters of Two Old Trees of Cryptomeria fortunei on Tiamnu Mountain 
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下载免费PDF全文 应用热扩散技术法,于2010年4-8月对浙江天目山自然保护区内的2株柳杉古树的树干液流进行连续观测,结合所测定的相关环境因子,分析了柳杉树干液流和耗水量的变化规律,以及液流与各环境因子的关系.结果表明:不同季节柳杉树干液流速率日变化规律基本一致,呈单峰波动曲线,但树干液流启动时间、达到峰值时间及迅速下降时间存在明显差异;树干液流密度与光合有效辐射、空气温度和水汽压差间存在极显著正相关,与空气相对湿度和CO2浓度呈极显著负相关;液流密度随树干直径的增加,无明显变化差异,但液流速率和日均耗水量均随树干直径的增加而增大;胸径75.6 cm柳杉和胸径62.8 cm柳杉的日均耗水量季节变化过程相同,但2者变化差异较大,6月份日均耗水量最低,分别为( 49.356±14.883) kg和(9.531±4.297)kg;4月份日均耗水量最高,分别为(110.022±21.890)kg和(49.352±2.629)kg. 相似文献
9.
应用热扩散技术法,于2010年4—8月对浙江天目山自然保护区内的2株柳杉古树的树干液流进行连续观测,结合所测定的相关环境因子,分析了柳杉树干液流和耗水量的变化规律,以及液流与各环境因子的关系。结果表明:不同季节柳杉树干液流速率日变化规律基本一致,呈单峰波动曲线,但树干液流启动时间、达到峰值时间及迅速下降时间存在明显差异;树干液流密度与光合有效辐射、空气温度和水汽压差间存在极显著正相关,与空气相对湿度和CO2浓度呈极显著负相关;液流密度随树干直径的增加,无明显变化差异,但液流速率和日均耗水量均随树干直径的增加而增大;胸径75.6 cm柳杉和胸径62.8 cm柳杉的日均耗水量季节变化过程相同,但2者变化差异较大,6月份日均耗水量最低,分别为(49.356±14.883) kg和(9.531±4.297)kg;4月份日均耗水量最高,分别为(110.022±21.890)kg和(49.352±2.629)kg。 相似文献
10.
依据组织热平衡原理,运用热扩散探针法,于2015年3月1日—2016年3月1日对冀北山地小五台自然保护区华北落叶松的树干液流速率进行连续监测,并同步观测气温、相对湿度、净辐射、总辐射、风速等环境因子的变化,研究其树干液流特征以及与环境因子的关系。结果表明:(1)小五台地区,华北落叶松树干液流启动于4月下旬,结束于10月上旬,前后历时160多d。晴天条件下,不同月份树干液流速率日变化均呈典型的单峰曲线,且液流的启动、到达峰值、结束时间以及液流升降速率存在差异。(2)生长季华北落叶松树干液流速率峰值以7、8、9月最高,都达到0.034 kg·h~(1)cm~(1)以上;日均值以7、8月最高,达到0.014 kg·h~(1)cm~(1)以上。(3)华北落叶松树干液流速率与空气温度、净辐射、总辐射、水汽压亏缺、风速呈极显著正相关,与空气湿度呈极显著负相关。环境因子对树干液流速率影响的大小顺序为:净辐射空气温度总辐射空气湿度风速。(4)整个生长季华北落叶松单株总耗水量为2 145.73±379.30 kg,其中以7、8月耗水量最大,分别为517.23±54.60和515.01±71.58 kg。 相似文献
11.
We report on diurnal and seasonal variations in sap flow rate and stem water potential of Fraxinus excelsior L. saplings growing at the edge of a Fraxino-Aceretum forest in western Germany. Because of shallow soil, the trees were subjected to drought in summer. When soil water availability was not limiting, sap flow rate was related to changes in solar radiation and vapor pressure deficit. Maximum transpiration rates per leaf area were 3.5-7.4 mmol m-2 s-1, and maximum daily totals were 1.7-3.3 kg m-2 day-1. Under drought conditions, stem water potential dropped to midday minima of -2.6 to -3.5 MPa and sap flow rate was strongly related to this parameter. After the drought period, reduced apparent (whole-plant) hydraulic conductance was observed, which was attributed to a continued reduction in stomatal conductance after the drought stress had ceased. A model was developed that linked sap flow rate directly to climatic variables and stem water potential. Good correlation between measured and simulated sap flow rates allowed the model to be used for data interpretation. 相似文献
12.
13.
Tree water storage and its diurnal dynamics related to sap flow and changes in stem volume in old-growth Douglas-fir trees 总被引:2,自引:0,他引:2
Diurnal and seasonal tree water storage was studied in three large Douglas-fir (Pseudotsuga menziesii [Mirb.] Franco) trees at the Wind River Canopy Crane Research site. Changes in water storage were based on measurements of sap flow and changes in stem volume and tissue water content at different heights in the stem and branches. We measured sap flow by two variants of the heat balance method (with internal heating in stems and external heating in branches), stem volume with electronic dendrometers, and tissue water content gravimetrically. Water storage was calculated from the differences in diurnal courses of sap flow at different heights and their integration. Old-growth Douglas-fir trees contained large amounts of free water: stem sapwood was the most important storage site, followed by stem phloem, branch sapwood, branch phloem and needles. There were significant time shifts (minutes to hours) between sap flow measured at different positions within the transport system (i.e., stem base to shoot tip), suggesting a highly elastic transport system. On selected fine days between late July and early October, when daily transpiration ranged from 150 to 300 liters, the quantity of stored water used daily ranged from 25 to 55 liters, i.e., about 20% of daily total sap flow. The greatest amount of this stored water came from the lower stem; however, proportionally more water was removed from the upper parts of the tree relative to their water storage capacity. In addition to lags in sap flow from one point in the hydrolic pathway to another, the withdrawal and replacement of stored water was reflected in changes in stem volume. When point-to-point lags in sap flow (minutes to hours near the top and stem base, respectively) were considered, there was a strong linear relationship between stem volume changes and transpiration. Volume changes of the whole tree were small (equivalent to 14% of the total daily use of stored water) indicating that most stored water came from the stem and from its inelastic (sapwood) tissues. Whole tree transpiration can be maintained with stored water for about a week, but it can be maintained with stored water from the upper crown alone for no more than a few hours. 相似文献
14.
大青山油松人工林树干液流动态及其蒸腾耗水规律研究 总被引:2,自引:0,他引:2
应用TDP(Thermal Dissipation Probe)技术对大青山古路板林场的30a生油松人工林树干液流以及不同林分密度下的树木蒸腾耗水规律进行了研究。结果表明:1)在生长季内,树干径向断面形成层以下不同部位输水能力差异较大,最大流速位于形成层下3cm。2)油松树干液流的日进程呈现明显的昼夜变化规律。在11:00左右达到峰值,其值可达0.286 6~0.306 0cm3/s。3)树干液流量(Y)与树木的胸径(X)之间的关系可用Y=0.0053EXP(0.4823X)的指数函数模型表达。4)在相同立地条件下,随着阴坡林分密度从2 147株/hm2增加到4 463株/hm2,单株蒸腾耗水量从0.543 4cm3/s降低到0.319 7cm3/s,而林分蒸腾耗水量变化幅度较小,平均蒸腾耗水量为0.3710±0.0489(5)mm/h。结果指出,大青山30a生油松人工林经营密度应控制在3 307株/hm2左右。 相似文献
15.
Xu Jun-liang Ma Lv-yi 《中国林学(英文版)》2007,9(4):251-255
In order to explore the relationship between the time processes of solar radiation and sap flow, sap flow velocity (SFV) of Platycladus orientalis and Pinus tabulaeformis, effective solar radiation (ESR) and other environmental factors were synchronously monitored for one year in the Beijing Western Mountains by using a thermal dissipation probe (TDP) system and an automatic weather station. Results showed significant differences between changes in diurnal characteristics of ESR and sap flow in sunny days during three seasons. Starting times of sap flow occurred generally 1.5–3 hours later than those of solar radiation and there were small differences between Platycladus orientalis and Pinus tabulaeformis. But peak times and stopping times of sap flow varied con-siderably with large contrasts in ESR. The duration of sap flow showed clear differences among the seasons owing to the variable rhythms of climate factors in Beijing. Fluctuation amplitude in the duration of sap flow remained relatively stable during the autumn but changed greatly during spring and summer. Changes in diurnal sap flow velocity of both Platycladus orientalis and Pinus tabu-laeformis were about 0–3 hours later than those of ESR but with the same configuration. The start of sap flow was mainly induced by the sudden intensification of ESR (sunrise effect). Seasonal models of SFV indicated that a cubic equation had the best fit. It was more practical to simulate seasonal water consumption models of trees with ESR. In further investigations, these models should be optimized. 相似文献
16.
胡杨蒸腾耗水的单木测定与林分转换研究 总被引:10,自引:0,他引:10
利用热脉冲技术,在黑河下游额济纳天然绿洲内测定胡杨单木边材液流在不同位点、方位的变化,结果表明:液流速率随深度的增加而增大,在15 mm处达到最大值,随后随深度增加而减小,越靠近形成层,液流启动越早,减小滞后;在4个方位上,南、西面液流速率远远高于北、东面;南面比西面液流启动较早,下降较快;西面液流速率下降滞后于南面;在北与东面,2个方位液流速率变化不大.在此基础上,采用边材面积作为纯量,对胡杨近熟林耗水量进行了推算.胡杨林边材面积与胸径之间存在较高的相关性,两者之间的关系可以用幂模型很好地拟合.通过实测标准地的胸径分布,推算出林地边材面积的分布,利用热脉冲测定单木液流通量,推算出黑河下游胡杨近熟林年生长期(4-10月)耗水量为3 172 m3·hm-2. 相似文献
17.
Takahisa Nakai Hisashi Abe Takeshi Muramoto Tetsuya Nakao 《Journal of Wood Science》2005,51(5):441-447
The relationship between sap flow rates and diurnal fluctuation of stems was investigated in cloned 3-year-old saplings of
Cryptomeria japonica D. Don grown in a phytotron with irrigation every 2 days. The improved stem heat balance method and a strain gauge were used
to measure sap flow rate and diurnal fluctuation of the stem. The sap flow rate reacted to lighting conditions, increasing
and decreasing immediately after lights-on and lights-off, respectively. The tangential strain on the surface of the inner
bark exhibited a reaction that followed but opposed the reaction of the sap flow rate to lighting conditions. Based on the
changes in sap flow rate, there seemed to be four phases in diurnal sap flow: phase A1 began with lights-on, when the sap flow rate increased, and lasted about 2 hours. In the following phase, A2, the sap flow rate remained almost constant at 1.3 g/min for about 10 h, and then declined for about 2 h as lights-off approached.
In phase B, the early period of darkness, the sap flow declined quickly and then more slowly, for about 4 h, until the start
of the second dark period, phase C, when the sap flow rate became almost constant at 0.05 g/min for about 6 h. The first derivative
of each sap flow rate and the corresponding tangential strain were calculated, and the results indicated a negative correlation
between the two variables in all periods. In particular, the relationship between the first derivative values exhibited a
highly negative correlation in phases A1 and B, expressed as a primary formula. Sap flow rate was found to continue for some time after lights-off, and this compensated
for reduced evaporative effects, albeit at a slow rate, over 4 h. The total amount of sap flow in the dark was only about
9% of that in the light, disregarding transpiration in the dark for simplicity. Thus, the total amount of sap flow responsible
for swelling of the stem was about 9% of that consumed in transpiration during the light period. 相似文献
18.
应用热扩散技术测定帽儿山不同径级水曲柳样木生长季的树干液流,初步分析和对比优势木、中等木和被压木树干液流密度的特征及季节变化趋势。结果表明,水曲柳树干液流密度变化具有明显的昼夜节律性,中等木液流密度变化呈单峰曲线,被压木液流密度变化曲线近似梯形,优势木液流密度变化呈弧形曲线,水曲柳中等木液流密度明显大于被压木和优势木。不同天气条件下液流密度日变化规律大不相同,阴雨天液流密度值较小且变化曲线十分不规则,波动性较大,甚至出现多峰曲线。生长季,优势木和被压木日液流通量最大值均出现在7月初至8月耒,分剐为1032.481/(m^2·d)和l063.78I/(m^2·d);中等木液流通量最大值出现在6月初至6月末,为2260.911/(m^2·d);优势木和被压木日液流通量最小值出现在9月份,中等木日液流通量最小值出现在生长季未期。,随季节推移,生长季各月份液流密度均值基本逐渐减小,进入生长季末期(10月)基本处于微弱渡动状态。水曲柳优势木和被压木6月份和9月份液流密度平均值均小于中等木,7月份和8月份液流密度月平均值非常接近;中等木液流密度平均值6月份最大,优势木和被压木的液流密度最大月均值出现在7月份, 相似文献