马占相思夜间树干液流特征和水分补充现象的分析

研究马占相思树干的夜间水分补充现象有助于提高总蒸腾量、冠层气孔导度估算的准确度,同时可以深化对冠层蒸腾与树干液流所代表的日蒸腾之间时滞现象的认识。在广东鹤山马占相思林,采用热扩散探针法测定液流密度,同步测定主要的环境因子,从不同的时间尺度分析其树干夜间水分补充现象。结果表明:与白天相比较,夜间马占相思液流密度较小;夜间液流密度的变化幅度旱季比雨季大,树干夜间水分补充的主要时间段是前半夜;年内各个月份夜间水分补充量之间没有显著差异,它与环境因子之间相关关系不显著,但与胸径、树高、冠幅的回归曲线拟合较好;干季夜间补充的水分对总蒸腾量的贡献与白天蒸腾量、总的蒸腾量、水蒸气压亏缺(VPD)、光合有效辐射(PAR)以及大气温度(T)显著相关;湿季夜间补充的水分对总蒸腾量的贡献与白天蒸腾量、总蒸腾量显著相关。     

广州地区荷木夜间树干液流补水的影响因子及其对蒸腾的贡献

明确树木夜间水分补充现象有助于提高总蒸腾量和冠层气孔导度估算的精确度,进一步认识冠层蒸腾与树干液流之间存在的时滞关系.本研究采用热消散探针法测定了广州地区的荷木树干液流密度,同步监测了主要的环境因子,从不同时间尺度分析了树干夜间液流的水分补充现象.结果表明：与白天相比,荷木夜间液流密度较小,旱季变化幅度比湿季大;夜间水分补充的时间段主要在前半夜(18:00-22:00);年内各季节夜间水分补充量之间没有显著差异,与环境因子之间的偏相关关系不显著,但与胸径、树高、冠幅、树干生物量、冠层生物量的回归曲线拟合很好,表明树形特征和生物量能更好地解释夜间补水的变化;各季节夜间水分补充量对总蒸腾量的贡献有显著差异,旱季明显高于湿季.     

广州地区荷木夜间树干液流补水的影响因子及其对蒸腾的贡献

明确树木夜间水分补充现象有助于提高总蒸腾量和冠层气孔导度估算的精确度,进一步认识冠层蒸腾与树干液流之间存在的时滞关系.本研究采用热消散探针法测定了广州地区的荷木树干液流密度,同步监测了主要的环境因子,从不同时间尺度分析了树干夜间液流的水分补充现象.结果表明:与白天相比,荷木夜间液流密度较小,旱季变化幅度比湿季大;夜间水分补充的时间段主要在前半夜(18:00-22:00);年内各季节夜间水分补充量之间没有显著差异,与环境因子之间的偏相关关系不显著,但与胸径、树高、冠幅、树干生物量、冠层生物量的回归曲线拟合很好,表明树形特征和生物量能更好地解释夜间补水的变化;各季节夜间水分补充量对总蒸腾量的贡献有显著差异,旱季明显高于湿季.     

马占相思树干液流与光合有效辐射和水汽压亏缺间的时滞效应

应用Granier热消散探针测定华南丘陵马占相思的树干液流,将液流与对应的光合有效辐射和水汽压亏缺数据列分别进行逐行错位分析和时间序列分析,探讨树干液流与蒸腾驱动因子之间的时滞效应,并对结果进行互相验证.结果表明:马占相思树木蒸腾主要驱动因子是光合有效辐射和水汽压亏缺,树干液流的变化更多地依赖光合有效辐射的变化,而且干季的依赖性比湿季更强;无论是干季还是湿季,树干液流都滞后于光合有效辐射,提前于水汽压亏缺;时滞效应季节差异显著;不同径级马占相思的时滞效应差异不显著;树高、胸径、冠幅并不能解释树干液流与光合有效辐射、水汽压亏缺之间的时滞效应;干季树干液流与水汽压亏缺之间的时滞效应与夜间水分补充量显著相关,湿季则相反.     

不同径级马占相思(Acacia mangium)整树蒸腾的湿、干季变化

利用Granier树干液流测定系统对广东鹤山丘陵地马占相思(Acacia mangium)林进行长期监测,并同步监测环境因子(空气温度、相对湿度、光合有效辐射、土壤体积含水量),选择胸径具有代表性的样树,结合马占相思的形态学参数,计算马占相思的整树蒸腾.通过对光合有效辐射(PAR)分级,建立不同辐射强度等级的湿季(土壤水分θ≥33%)整树蒸腾与水汽压亏缺(VPD)的相关方程,以干季(θ≤24%)的VPD代入对应PAR等级的湿季的拟合方程,求出干季的潜在蒸腾,以潜在蒸腾和干季实际蒸腾之差分析不同径级整树蒸腾在不同季节的实际变化.在所有的PAR分级内,干季整树蒸腾显著低于湿季,仅占湿季蒸腾的10%～20%,就蒸腾减少的绝对量而言,优势木>中间木>劣势木.土壤水分下降缩小了不同径级树木之间液流密度的差异,土壤水分亏缺限制了树木的蒸腾,对马占相思的生长造成一定程度的水分胁迫.     

华南丘陵植被恢复先锋树种木荷与马占相思的水分利用

利用Granier测定系统,对华南丘陵植被恢复先锋树种马占相思和木荷的树干液流分别进行4 a(2004—2007年)和5 a(2008—2012年)监测,比较不同龄级两树种的蒸腾量及其季节变化.结果表明: 马占相思和木荷的年蒸腾量均随树龄增加而增大,木荷蒸腾量的增加速度更快.木荷平均整树年蒸腾量为7014.76 kg,比马占相思(3704.97 kg)高;马占相思蒸腾量的季节变异(511.46～1802.17 kg)比木荷(1346.48～2349.35 kg)大.蒸腾速率(E_h)与光合有效辐射(PAR)、水汽压亏缺(VPD)的标准回归系数随土壤湿度的增加而增大,表明土壤水分的增加提高了植物对环境响应的敏感度.偏相关分析表明,土壤湿度的季节变异是导致两树种蒸腾量季节变化的最主要因素.木荷和马占相思的最适土壤湿度分别为0.22～0.40和0.29～0.30(V/V),表明与外来树种马占相思相比,乡土树种木荷对水分胁迫有更好的适应及调节能力.     

基于树干液流测定值的马占相思(Acacia mangium)冠层气孔导度计算及数值模拟

为深入揭示华南地区马占相思冠层气孔导度对环境因子的响应规律,在2005年7月至11月,利用Granier热消散式探针法对马占相思(Acacia mangium)的树干液流(sapflow)进行了连续测定,计算出整树的蒸腾,并由Penman-Monteith方程得出马占相思的冠层气孔导度值。通过分析,发现:马占相思冠层气孔导度是控制马占相思树整树蒸腾的主要因素;冠层气孔导度随着水汽压亏缺增加呈负指数函数下降的趋势。使用包括了太阳总辐射、水汽压亏缺和气温的Jarvis模型可以较好地模拟马占相思冠层气孔导度对环境因子的响应特征;模拟结果表明:环境变量对模型精确度的影响程度依次为:水汽压亏缺>太阳总辐射>气温。     

鹤山人工马占相思林水分生态研究

 通过对马占相思叶片的蒸腾速率、气孔导度及其相应环境因子的测定,探讨鹤山丘陵人工马占相思林的水分生理生态特征。结果表明：蒸腾速率和气孔导度具有明显的日变化,两者的变化趋势相似,在夏季的日变化曲线呈双峰型,冬季呈单峰型;夏季的蒸腾速率最高,在冬季最低,仅占夏季的27.6％;马占相思林的蒸腾耗水量在旱季和雨季有明显的差异,旱季的蒸腾耗水量占雨季的25.5％,年蒸腾量为1625.1mm,占同期降水量的78.3％;马占相思林的蒸腾量接近热带雨林。     

木荷树干夜间水分补充的季节动态及其与树形特征和叶片生物量的关系

利用热消散探针(TDP)法对位于中国科学院华南植物园的木荷(Schima superba)人工纯林的15株样树进行了树干液流监测, 并结合光合有效辐射(PAR)和土壤含水量的测定, 探讨了不同季节的夜间水分补充量与树形特征和叶片生物量的关系。结果表明: 1)夜间液流活动时间与PAR同步, 但其结束时间不受PAR影响; 春、夏季夜间液流明显比秋冬季活跃。2)春、夏、秋季的夜间水分补充量与样树的胸径、冠幅、边材面积、叶片生物量呈极显著线性关系, 与树高仅在春季呈显著线性关系。3)春、夏季的夜间水分补充量主要受样树冠幅影响, 成正相关; 秋季主要受胸径影响, 成正相关; 冬季仅受树高影响。该试验说明木荷夜间水分补充与树形特征、叶片生物量关系密切, 但起主要作用的树形特征和具体关系具有季节差别。     

Granier树干液流测定系统在马占相思的水分利用研究中的应用

介绍了Granier热消散探针在树干液流测定中的工作原理,并利用该系统长期监测广东鹤山马占相思林14株样树的液流密度,分析了树木个体内和个体之间液流密度的差异、整树和林段水分利用的量化特征.由于树木边材结构以及周围微环境的差别,树木内和个体间的液流密度差异非常明显,变异系数的平均值分别为15.51%-37.26%、37.46%-50.73%.尽管液流密度的差异较大,但同一株树木不同方位的液流密度之间却呈现明显的线性相关（p＜0.0001）,这是重要的特征值,使得只需测定某一方位的液流密度经尺度外推计算整树和林段蒸腾成为可能.树木液流对环境因子响应的变化规律取决于所参照的时间尺度,日变化主要受光辐射、水汽压差等气候因子的控制,而土壤水份对液流的季节变化影响较大.形态特征明显影响树木的液流,高大树木由于边材较厚、树干粗壮和冠幅较宽而承载较多的辐射能量,因而水分蒸腾较高.对树木液流密度在径向和方位上进行适当的整合,可较准确地计算整树和林段蒸腾.由液流估测的马占相思整树和林段蒸腾的结果显示,该群落的水分利用在时间和空间上均有明显的分化.     

Nighttime sap flow of Acacia mangium and its implications for nighttime transpiration and stem water storage

Aims Nighttime sap flow of trees may indicate transpiration and/or recharge of stem water storage at night. This paper deals with the water use of Acacia mangium at night in the hilly lands of subtropical South China. Our primary goal was to reveal and understand the nature of nighttime sap flow and its functional significance.Methods Granier's thermal dissipation method was used to determine the nighttime sap flux of A. mangium. Gas exchange system was used to estimate nighttime leaf transpiration and stomatal conductance of studied trees.Important findings Nighttime sap flow was substantial and showed seasonal variation similar to the patterns of daytime sap flow in A. mangium. Mean nighttime sap flow was higher in the less precipitation year of 2004 (1122.4 mm) than in the more precipitation year of 2005 (1342.5 mm) since more daytime transpiration and low soil water availability in the relatively dry 2004 can be the cause of more nighttime sap flow. Although vapor pressure deficit and air temperature were significantly correlated with nighttime sap flow, they could only explain a small fraction of the variance in nighttime sap flow. The total accumulated water loss (E L) by transpiration of canopy leaves was only ~2.6–8.5% of the total nighttime sap flow (E t) during the nights of July 17–18 and 18–19, 2006. Therefore, it is likely that the nighttime sap flow was mainly used for refilling water in the trunk. The stem diameter at breast height, basal area and sapwood area explained much more variance of nighttime water recharge than environmental factors and other tree form features, such as tree height, stem length below the branch, and canopy size. The contribution of nighttime water recharge to the total transpiration ranged from 14.7 to 30.3% depending on different DBH class and was considerably higher in the dry season compared to the wet season.     

树高对马占相思整树水分利用的效应

利用Granier热消散探针,于2004年观测了华南丘陵坡地常见绿化先锋树种马占相思(22年生)的树干液流,同时监测林冠上方的光合有效辐射、气温、相对湿度和0～30 cm的土壤体积含水量.结合树木的形态特征、液流密度和简化的Whitehead & Jarvis公式,分别计算了整树蒸腾、冠层气孔导度和叶面积/边材面积比值,分析了树高对整树蒸腾、冠层气孔导度和叶面积/边材面积比值的影响.结果表明：土壤水分充足时,马占相思整树蒸腾随树高呈二次多项式增加(P<0.01),冠层气孔导度日变化均呈“单峰”格型;在所有光合有效辐射范围内,高树的参比冠层气孔导度和冠层气孔导度对水汽压亏缺的敏感性均高于矮树;叶面积/边材面积比值为（1.837±0.048） m²·cm^-2,并与树高呈幂函数关系.随着树木高度的增加,马占相思没有发生明显的水力限制和补偿.     

马占相思林冠层气孔导度对环境驱动因子的响应

利用Granier热消散探针在2003年10月测定了广东鹤山丘陵地马占相思林14株样树的树干液流,同时监测林冠上方的光合有效辐射、空气湿度和气温,结合树木的形态和林分的结构特征,计算马占相思的整树蒸腾(E)、林分总蒸腾(E_t)以及冠层平均气孔导度(g_c),分析树形特征与整树水分利用的关系、冠层气孔导度对光合有效辐射(PAR)和空气水汽压亏缺(D)的响应.结果表明,整树蒸腾与胸径(P＜0.0001)、边材面积(P＜0.0001)和冠幅(P=0.0007)以自然对数的形式、与树高(P=0.014)以幂函数的形式呈现显著正相关.冠层气孔导度最大值(g_cmax)随D的上升呈对数函数下降(P＜0.0001),对光合有效辐射的响应则呈双曲线函数增加(P＜0.0001).液流测定系统能提供连续和准确的整树和林分蒸腾速率值,经严格数学推导公式计算,最终可求出冠层气孔导度,是研究森林水分利用与环境因子相互关系的有效方法.     

基于树干液流测定值进行尺度扩展的马占相思林段蒸腾和冠层气孔导度

应用Granier热消散探针,长期监测华南丘陵地马占相思(Acacia mangium)林14棵样树的树干液流(Sap flow),由此计算整树和林段的蒸腾速率,结合同步记录的环境因子,求算冠层平均气孔导度(G_c)。Granier探针的灵敏度较高,能精确测定即使是微弱的液流活动。观测结果显示,树木个体之间的液流密度(J_s)和整树蒸腾(E_t)受树形特征影响较大。马占相思林径级大的树木个体数较少,但占据林段边材总面积和林段蒸腾的比例较大。J_s和E_t的日变化主要受光合有效辐射(Q_o)和空气水蒸气压亏缺(D)的控制,土壤含水量(θ)对较大胸径树木E_t的影响大于胸径较小的树木,个体之间J_s和E_t的差异随θ的下降而缩小。一年中,林段蒸腾(E)在光照和水热条件较好的7月最高,9~12月,由于土壤水分供应的减少致使E值降低,E对D的敏感性下降。G_c与主要环境因子的关系与E相似,如果θ长期偏低,G_c会明显下降,是造成E降低的主要原因。成熟马占相思林在光照充足、水热条件较好的情况下的蒸腾活动旺盛,但对土壤水分胁迫的忍受力较低。     

Regulation of water flux through trunks, branches, and leaves in trees of a lowland tropical forest

We studied regulation of whole-tree water use in individuals of five diverse canopy tree species growing in a Panamanian seasonal forest. A construction crane equipped with a gondola was used to access the upper crowns and points along the branches and trunks of the study trees for making concurrent measurements of sap flow at the whole-tree and branch levels, and vapor phase conductances and water status at the leaf level. These measurements were integrated to assess physiological regulation of water use from the whole-tree to the single-leaf scale. Whole-tree water use ranged from 379 kg day⁻¹ in a 35 m-tall Anacardium excelsum tree to 46 kg day⁻¹ in an 18 m-tall Cecropia longipes tree. The dependence of whole-tree and branch sap velocity and sap flow on sapwood area was essentially identical in the five trees studied. However, large differences in transpiration per unit leaf area (E) among individuals and among branches on the same individual were observed. These differences were substantially reduced when E was normalized by the corresponding branch leaf area:sapwood area ratio (LA/SA). Variation in stomatal conductance (g _s) and crown conductance (g _c), a total vapor phase conductance that includes stomatal and boundary layer components, was closely associated with variation in the leaf area-specific total hydraulic conductance of the soil/leaf pathway (G _t). Vapor phase conductance in all five trees responded similarly to variation in G _t. Large diurnal variations in G _t were associated with diurnal variation in exchange of water between the transpiration stream and internal stem storage compartments. Differences in stomatal regulation of transpiration on a leaf area basis appeared to be governed largely by tree size and hydraulic architectural features rather than physiological differences in the responsiveness of stomata. We suggest that reliance on measurements gathered at a single scale or inadequate range of scale may result in misleading conclusions concerning physiological differences in regulation of transpiration. Received: 1 October 1997 / Accepted: 6 March 1998     

Time constant for water transport in loblolly pine trees estimated from time series of evaporative demand and stem sapflow

 The use of stem sap flow data to estimate diurnal whole-tree transpiration and canopy stomatal conductance depends critically upon knowledge of the time lag between transpiration and water flux through the stem. In this study, the time constant for water movement in stems of 12-year-old Pinus taeda L. individuals was estimated from analysis of time series data of stem water flux and canopy transpiration computed from mean daytime canopy conductance, and diurnal vapor pressure deficit and solar radiation measurements. Water uptake through stems was measured using a constant-heat sapflow probe. Canopy transpiration was correlated to stem uptake using a resistance-capacitance equation that incorporates a time constant parameter. A least-squares auto-regression determined the parameters of the resistance-capacitance equation. The time constants for ten loblolly pine trees averaged 48.0 (SE = 2.0) min and the time lag for the diurnal frequency averaged 47.0 (SE = 2.0) min. A direct-cross correlation analysis between canopy transpiration and sap flow time series showed maximum correlation at an approximately 30 min lag. Residuals (model-predicted minus actual stem flow data) increased with increasing soil moisture depletion. While the time constants did not vary significantly within the range of tree sizes studied, hydraulic resistance and capacitance terms were individually dependent on stem cross-sectional area: capacitance increased and resistance decreased with stem volume. This result may indicate an inverse adjustment of resistance and capacitance to maintain a similar time constant over the range of tree sizes studied.     

整树水力导度协同冠层气孔导度调节森林蒸腾

冠层气孔导度决定森林的蒸腾效率,它对驱动水汽移动的水汽应力的响应受树木水力结构的影响,并随水汽压亏缺上升和水力导度下降而降低,维持水势在最低阈值之上,避免出现水力灾变,调控冠层蒸腾。由于叶形和树冠结构的特点,部分脱耦联反映了湿润地区阔叶林冠层与大气的水汽交换特征,单纯以气孔导度的变化难以完整描述水分通量的调节规律,因而,需要考虑冠层气孔导度与水力导度协同控制冠层蒸腾的潜在机理。通过整合叶片气孔气体交换、树干液流、冠层微气象和其他环境因子的野外观测值,估测不同时间尺度的森林冠层气孔导度与大气的脱耦联系数和变异范围,以基于树干液流的冠层蒸腾,结合叶片/土壤水势梯度计算的水力导度,分析水力导度影响冠层气孔导度响应水汽压亏缺的敏感性,可以揭示和阐明水力导度和冠层气孔导度联合调节森林蒸腾的机理,对准确估测全球变化背景下森林对水资源利用的潜在生态效应有明显的理论意义。