北京山区侧柏人工林水分利用效率及其影响因素

水分利用效率(WUE)是衡量植物抗旱性的一个重要指标,研究其动态变化及其影响因素能为北京山区植被建设提供参考.本研究基于稳定碳同位素技术,通过测定北京山区侧柏人工林在生长季的水分利用效率,探究气象因子、土壤因子和大气CO₂浓度对侧柏短期WUE的影响.结果表明: 1)侧柏生长季内的短期WUE呈现先降低后增加的变化特征,7月侧柏的短期WUE最低(2.69 mmol·mol^-1),10月侧柏的短期WUE最高(13.88 mmol·mol^-1).2)叶内外水汽压差(VPD)、大气温度(T_a)、土壤湿度(M_s)、空气相对湿度(RH)和大气CO₂浓度(C_a)是植物WUE的影响因素,5个影响因素对侧柏短期WUE变化的累计解释率达89.7%;太阳辐射(R_a)和风速(W_s)与侧柏短期WUE没有显著关系.3)VPD和T_a是影响侧柏短期WUE的主要因素,两者组成的主成分可以解释53.9%的侧柏短期WUE变化,其中VPD对侧柏短期WUE的影响高于T_a;M_s和RH是影响侧柏短期WUE的次要因素,两者组成的主成分可以解释25.4%的侧柏短期WUE变化,其中M_s对植物短期WUE的影响高于RH;C_a对侧柏短期WUE的影响较小,主要由C_a和T_a组成的主成分可以解释10.3%的侧柏短期WUE变化.     

环境和生物因子对黄河三角洲滨海湿地净生态系统CO2交换的影响

通过涡度相关和微气象观测技术,对黄河三角洲滨海湿地净生态系统CO₂交换(NEE)以及环境、生物因子进行了观测,探究湿地NEE变化规律及环境和生物因子对NEE的影响. 结果表明: 在日尺度上,生长季NEE呈明显“U”型曲线,非生长季变幅较小;在季节尺度上,NEE生长季波动较大,表现为碳汇,非生长季波动较小,表现为碳源;在年尺度上,滨海湿地生态系统表现为碳汇,总净固碳量为-247 g C·m^-2. 白天NEE主要受控于光合有效辐射(PAR),且生态系统表观量子产量(α)与白天生态系统呼吸(R_eco,d)均于8月达到最大值,最大光合速率(A_max)于7月达到最大值;夜间NEE随气温(T_a)呈指数增加趋势,生态系统的温度敏感系数(Q₁₀)为2.5,且土壤含水量(SWC)越高,Q₁₀值越大.非生长季NEE只与净辐射(R_n)呈显著的线性负相关,与其他环境因子无显著相关关系.生长季NEE与R_n、T_a、土壤10 cm温度(T_{s 10})等环境因子以及叶面积指数(LAI)呈显著的线性负相关,但与地上生物量(AGB)无显著相关关系.多元回归分析表明,R_n和LAI对生长季NEE的协同影响达到52%.     

环境和生物因子对黄河三角洲滨海湿地净生态系统CO2交换的影响

通过涡度相关和微气象观测技术,对黄河三角洲滨海湿地净生态系统CO₂交换(NEE)以及环境、生物因子进行了观测,探究湿地NEE变化规律及环境和生物因子对NEE的影响. 结果表明: 在日尺度上,生长季NEE呈明显“U”型曲线,非生长季变幅较小;在季节尺度上,NEE生长季波动较大,表现为碳汇,非生长季波动较小,表现为碳源;在年尺度上,滨海湿地生态系统表现为碳汇,总净固碳量为-247 g C·m^-2. 白天NEE主要受控于光合有效辐射(PAR),且生态系统表观量子产量(α)与白天生态系统呼吸(R_eco,d)均于8月达到最大值,最大光合速率(A_max)于7月达到最大值;夜间NEE随气温(T_a)呈指数增加趋势,生态系统的温度敏感系数(Q₁₀)为2.5,且土壤含水量(SWC)越高,Q₁₀值越大.非生长季NEE只与净辐射(R_n)呈显著的线性负相关,与其他环境因子无显著相关关系.生长季NEE与R_n、T_a、土壤10 cm温度(T_{s 10})等环境因子以及叶面积指数(LAI)呈显著的线性负相关,但与地上生物量(AGB)无显著相关关系.多元回归分析表明,R_n和LAI对生长季NEE的协同影响达到52%.     

温度和水分对科尔沁草甸湿地净生态系统碳交换量的影响

基于涡度相关和波文比气象土壤监测系统,研究了2016年科尔沁草甸湿地生态系统生长季5—9月CO₂通量的动态变化特征,分析了温度、水分等环境因子与其的响应关系.结果表明:生长季累计净生态系统碳交换量(NEE)为-766.18 g CO₂·m^-2,总初级生产力(GPP)和生态系统呼吸量(R_e)分别为3379.89和2613.71 g CO₂·m^-2,R_e/GPP为77.3%,表现为明显的碳汇.NEE各月平均日变化呈单峰“U”型曲线,其中5—7月和8月中旬表现为吸收CO₂,8月后半月和9月表现为释放CO₂.日间NEE与光合有效辐射(PAR)呈显著的直角双曲线关系,同时受饱和水汽压差(VPD)、土壤含水量(SWC)和气温(T_a)等环境要素调控.回归关系表明,日间NEE达到最大时,VPD和SWC值分别为1.75 kPa和35.5%,而NEE随T_a增加逐渐增大,当T_a达到最大时,并未对NEE产生抑制作用;夜间NEE随土壤温度(T_s)呈指数趋势上升.在整个生长季,生态系统呼吸的温度敏感性指数(Q₁₀)为2.4,且SWC越高,Q₁₀越小,夜间NEE受T_s和SWC共同调控.     

长白落叶松冠层光合作用的空间异质性

以2014年黑龙江省帽儿山林场14年生人工长白落叶松为研究对象,对比分析了各项光合指标、环境因子及光合生理参数在冠层内的空间差异性,并探讨了净光合速率(P_n)与其他指标的关系.结果表明: 在树冠垂直方向,上层P_n、气孔导度(g_s)和蒸腾速率(T_r)显著高于中层和下层,胞间CO₂浓度(C_i)表现为下层>中层>上层;光合有效辐射(PAR)从上层外部到下层内部呈显著降低趋势,水汽压差(VPD)和叶片温度(T_l)表现为上层显著高于中层和下层,相对湿度(RH)则无显著差异;最大净光合速率(P_{n max})、暗呼吸速率(R_d)、光补偿点(LCP)和光饱和点(LSP)均表现为上层>中层>下层,下层比上层分别降低32.7%、55.8%、80.2%和51.6%,表观量子效率(AQY)表现为下层>中层>上层,下层分别是中层和上层的1.2和1.3倍.水平方向,光合指标和环境因子的差异性主要体现在树冠上层,P_n、g_s、T_r、PAR和VPD表现为树冠外部显著高于树冠内部,而C_i和RH差异不显著;P_{n max}、R_d、LCP和LSP表现为外部>内部,内部比外部分别降低0.4%、37.7%、42.0%和16.4%,而AQY在内部比外部高0.7%.C_i是限制P_n的主要生理因子,PAR是影响P_n的主要环境因子,尤其在弱光区域PAR对P_n的影响十分明显.因此,在模拟和预估树木冠层光合作用时,考虑空间异质性有一定的必要性.     

晋西黄土区典型乔灌木短期水分利用效率对环境因子的响应

为明确晋西黄土区植物的水分利用规律及对半干旱区的适应策略, 提高黄土地区植被建设效益, 该研究对该地区典型乔灌木短期水分利用效率随环境因子的变化进行了探究。以典型乔木油松(Pinus tabuliformis)、刺槐(Robinia pseudoacacia)及其林下灌木黄刺玫(Rosa xanthina)、杠柳(Periploca sepium)为研究对象, 测定叶片可溶性糖稳定碳同位素比值(δ¹³C_leaf)与枝条渗出液稳定碳同位素比值(δ¹³C_branch), 使用δ¹³C_leaf推导计算7-10月叶片尺度下植物短期水分利用效率(WUE_leaf)变化趋势, 使用δ¹³C_branch明确植物光合作用后分馏情况, 确定半干旱区植物在生长季的水分变化规律对环境因子变化的响应。结果表明: (1) 7-10月4种植物δ¹³C_leaf总体呈现降低趋势, δ¹³C_branch呈现先升高后降低趋势。δ¹³C_leaf在种间和生活型中均存在差异。具体表现为: 灌木>乔木, 常绿乔木(油松) >落叶乔木(刺槐)。研究过程中未发现明显的碳同位素在光合作用后发生分馏的情况。(2) 4种植物WUE_leaf在7-8月保持稳定, 9-10月逐渐升高。21.5 ℃、0.9 kPa、52.4%分别为WUE_leaf随温度(T_a)、饱和水汽压差(VPD)、相对湿度(RH)变化的突变点, 突变点之后4种植物WUE_leaf均表现出稳定的变化趋势, 不再随T_a、VPD、RH升高而降低。(3) WUE_leaf与T_a、RH、VPD之间存在显著负相关关系, T_a通过非气孔因素, 即酶的作用改变光合速率, 引起WUE_leaf变化。RH、VPD等水分因子则通过改变气孔开度, 影响蒸腾, 进而改变WUE_leaf。随着土壤含水量(SWC)的升高, WUE_leaf呈现先升高后降低的趋势。油松林和刺槐林在SWC分别达到15%-18%、13%-14%时, WUE_leaf达到最高值。经过混合线性模型(LMM)分析得到, 油松和刺槐WUE_leaf主导环境因子分别为RH和VPD, 黄刺玫和杠柳WUE_leaf主导环境因子均为T_a。该研究得到了黄土地区典型乔灌木生长季水分利用效率变化的规律和主要环境影响因子, 明确了黄土地区植物对气候因子变化的适应机制。     

阴晴天条件下高CO2浓度对杂交稻光合作用影响的FACE研究

光和二氧化碳(CO₂)是绿色植物光合作用的两个基本条件.为了明确不同光照条件下,高CO₂浓度对不同杂交水稻光合特性的影响,2017年利用稻田大型FACE平台,以‘Y两优900’和‘甬优538’为供试材料,设置环境CO₂和高CO₂浓度(增200 μmol·mol^-1)两个水平,分别在拔节期和灌浆期同时测定阴、晴天气条件下顶部全展叶光合特性参数.结果表明: 高CO₂浓度使不同天气情况下两品种叶片的净同化率(P_n)均呈增加趋势,其中晴天条件下的增幅(31%)大于阴天(25%),拔节期的增幅(37%)大于灌浆期(21%),CO₂与天气、CO₂与生育期均存在显著的互作效应.叶片水分利用效率(WUE)对高CO₂浓度的响应趋势与P_n一致.高CO₂浓度环境下叶片气孔导度(g_s)、蒸腾速率(T_r)均呈下降趋势,晴天条件下的降幅略大于阴天.与晴天相比,阴天条件下叶片P_n、g_s、T_r、WUE和L_s平均分别下降41%、18%、41%、26%和27%,差异均达显著或极显著水平.相关分析表明,晴天P_n、g_s、T_r均与阴天时的参数呈极显著正相关关系.表明阴天使水稻生育中、后期叶片光合参数及其对高CO₂浓度的响应均大幅降低,且两品种表现一致.评估未来水稻产量潜力需要考虑天气条件.     

基于气象因子的白桦天然林单木直径生长模型

基于大、小兴安岭地区212块白桦天然林固定样地复测数据和区域内及周边共30个气象站点数据,构建了基于气象因子的单木生长模型.在此基础上,通过分析大、小兴安岭地区林分因子及气象因子的差异,采用哑变量方法构建了含区域效应的单木直径生长模型.结果表明: 生长季最低温度(T_{g min})和生长季降雨量(P_{g m})是影响两地区白桦胸径生长量的主要气象因素.T_{g min}和P_{g m}与胸径生长量均呈正相关关系,但T_{g min}对胸径生长量的影响程度存在明显的区域差异.引入T_{g min}和P_{g m}的单木生长模型比仅含林分因子的单木生长模型的调整后确定系数(R_a²)提高了11%(R_a²=0.56),说明气象因子可以很好地解释该地区白桦生长情况;采用哑变量法构建的含区域效应的胸径生长模型将R_a²提高了18%(R_a²=0.59),且有效解决了模型参数区域不相容的问题.模型检验结果表明,含区域效应的哑变量单木胸径生长模型对大、小兴安岭地区白桦胸径生长量的预估效果最好,平均偏差、平均绝对偏差、平均相对偏差和平均相对偏差绝对值分别为0.0086、0.4476、5.8%和20.0%.基于气象因子的哑变量单木胸径生长模型可以很好地描述大、小兴安岭地区白桦的胸径生长过程.     

不同动力学分馏系数对北京山区侧柏叶片水δ18O的模拟

利用稳定同位素技术对植物叶片水¹⁸O同位素组成(δ_L,b)进行研究,可以为植物叶片生理及森林水文的研究提供理论参考。本研究连续监测北京山区侧柏人工林生态系统冠层大气水汽浓度(W_a)和大气水汽¹⁸O同位素值组成(δ_v),结合测定的侧柏枝条水¹⁸O同位素组成(δ_x)和δ_L,b,分析了动力学分馏系数ε_k1(32%)和ε_k2(28%)对δ_L,b的预测效果。结果表明: 侧柏人工林生态系统W_a日变化无明显规律,大气相对湿度(RH)日变化呈“V”型,气孔导度(g_s)在日尺度上先增大后减小;同位素接近稳态时(正午前后),δ_L,b略有增加,W_a、RH、g_s与δ_L,b均呈显著负相关关系;同位素接近稳态条件下,将不同动力学分馏系数ε_k1、ε_k2应用于Craig-Gordon模型,预测δ_L,b,ε_k2的预测值更接近δ_L,b的实测值,表明ε_k2应用于模型更符合北京山区侧柏叶片水同位素富集情况。研究结果将加深对叶片水同位素富集模型、蒸散拆分模型的认识。     

帽儿山温带落叶阔叶林净生态系统碳交换的日变化及光响应特征

光合有效辐射(PAR)是影响白天净生态系统碳交换(NEE)变化的主要环境因子,但坡面地形水平测量的PAR与超声风速仪倾斜校正后的NEE坐标系统并不匹配。本研究以平均坡度9°、坡向296°的帽儿山温带落叶阔叶林为例,研究2016年生长季(5—9月)NEE的日变化规律及其驱动因子,评估水平和坡面平行辐射表测量PAR在光响应参数估计以及其他驱动因子对NEE解释方面的差异。结果表明: 生长季各月NEE日变化均呈上、下午不对称的单峰曲线,NEE日出约2.5 h后变为负值(净碳吸收),在12:00左右达到峰值,日落前2 h再次接近零。日吸收峰7月最大,5月最小。从整个生长季来看,坡面平行与水平测量PAR的时滞和差异导致通过水平辐射表测得的PAR值拟合得到的光合量子效率(α)和白天呼吸速率(R_d)分别增大13.3%和11.5%,最大光合效率(A_max)降低7.7%;上午与下午的NEE光响应曲线不对称,下午的R_d和A_max均大于上午。光响应参数还受天气条件影响,多云A_max大于晴天,但α和R_d大多小于晴天。但逐月来看,水平测量辐射的A_max和R_d普遍低于倾斜测量辐射的值,尤其是多云下午的A_max。辐射表安装方式还影响空气温度(T_a)与饱和水汽压差(VPD)对NEE的解释,除9月T_a外,基于坡面平行辐射表的全天NEE残差与T_a和VPD的相关性(r为0.082～0.219和0.162～0.282)高于基于水平辐射表的NEE残差(r为0.013～0.197和0.098～0.224)。本研究表明,倾斜地形水平测量PAR可对NEE的环境解释带来明显误差,这对山地植被辐射测量方法以及陆地生态系统碳通量的科学解释具有重要意义。     

Thermal biology of the fossorial rodent Ctenomys fulvus from the Atacama desert, northern Chile

The Andean tuco-tuco, Ctenomys fulvus (Rodentia: Ctenomyidae) inhabits one of the most arid regions of the world, the Salar de Atacama, Northeast of Antofagasta, Chile (23°17′06″S, 68°05′43″W; 2.240 m.a.s.l). We found that a stable microclimate in burrows, a low evaporative water loss (EWL), and a diet of roots (59% water content) are the main factors that permit the survival of this fossorial species in harsh desert conditions. Large circadian variation in T_a was observed above ground. Daily ΔT_a (T_a max − T_a min) = 37.9±0.2°C in summer and in winter. In contrast, circadian variation of T_a inside the burrows was only 5.8±0.5°C in the same seasons. Relative humidity (RH) was 1.9–3.1% during the day, increasing to maximum values of 27% at night and early morning. Inside the burrows RH was higher and quite stable, ranging between 53.1 and 65%, independent of the time of day and season. EWL, measured between 10 and 25°C, was low (1.26 mg/g h), and a moderate increase of 13–20% was observed at higher temperatures. The low EWL may prevent dehydration. However, because of the low heat loss capability, animals became hyperthermic (0.8–1.6°C) in dry air at T_a=30–35°C. As T_a during afternoon normally exceeded 35°C, the microclimate of burrows provided the only way to avoid the lethal effects of hyperthermia.     

Behavioural and autonomic thermoregulation in hamsters during microwave-induced heat exposure

1. 1.|Preferred ambient temperature (T_a) and ventilatory frequency were measured in free-moving hamsters exposed to 2450 MHz microwaves. A waveguide exposure system which permits continuous monitoring of the absorbed heat load accrued from microwave exposure was imposed with a longitudinal temperature gradient which allowed hamsters to select their preferred T_a. Ventillatory frequency was monitored remotely by analysing the rhythmic shifts in unabsorbed microwave energy passing down the waveguide.

2. 2.|Without microwave exposure hamsters selected an average T_a of 30.2°C. This preferred T_a did not change until the rate of heat absorption (SAR) from microwave exposure exceeded approx. 2 W kg⁻¹. In a separate experiment, a SAR of 2.0 W kg⁻¹ at a T_a of 30°C was shown to promote an average 0.5°C increase in colonic temperature. Hamsters maintained their ventilatory frequency at baseline levels by selecting a cooler T_a during microwave exposure. In contrast, hamsters maintained at a T_a of 30°C (without a temperature gradient) underwent a sharp increase in ventilatory frequency compared to animals allowed to select their own T_a.

3. 3.|These data support previous studies suggesting that during thermal stress behavioural thermoregulation (i.e. preferred T_a) takes prescedence over autonomic thermoregulation (i.e. ventilatory frequency). It is apparent that selecting a cooler T_a is a more efficient and/or effective than autonomic thermoregulation for dissipating a heat load accrued from microwave exposure.

Heat tolerance of short-beaked echidnas (Tachyglossus aculeatus) in the field

(1) Echidnas occur throughout the hot arid zone of Australia yet laboratory studies have concluded that they are ill equipped physiologically to manage T_a higher than 35°C. (2) Consequently, it is generally assumed that echidnas must rely on behavioural thermoregulation, being nocturnal in hot weather and seeking less extreme microclimates during the day. (3) By monitoring T_b of echidnas in the field and relating these to T_a within their day time shelters in Western Queensland during summer, this study showed that echidnas are able to tolerate T_a of 35–40°C in hollow logs for up to 10 h. (4) Further, as T_b remains < T_a in these situations, echidnas may have physiological mechanisms for dealing with the heat after all.     

Ambient temperature limits and stability of temperature regulation in telemetered male and female rats

Knowing the ambient temperature (T_a) limits of normothermia in laboratory rodents is important because their thermoregulatory responses are useful in studies of physiology, pharmacology and toxicology. The present study assessed the T_a limits of normothermia using radiotelemetry to monitor core temperature (T_c), heart rate (HR), and motor activity (MA) in unrestrained, male and female Long-Evans rats over a 24 h period. Rats were housed individually in acrylic cages with wire-screen tops and bottoms and maintained at T'_as ranging from 12 to 33.5°C for 24 h with food and water provided ad libitum on a 12:12 L:D photoperiod. The limits of normothermia (i.e. where there was no significant change in T_c) were <12–29.5°C for females and 14.5–29.5°C for males. T_c of males at T'_as of 12, 32, and 33.5°C increased significantly above the baseline T_c. Female rats had a lower T_c than males at the warmest and coldest T'_as. HR and MA were generally higher in females at all T'_as. Males appeared to be poorly adapted to thermoregulate at T'_as above 30°C as based on their excessively high T'_cs, low MA, and marked weight loss compared to that of the females. Within the limits of normothermia the stability of T_c regulation (i.e. [(ΔT_c/ΔT_a) × 100]/2) was ±1.3 and ± 0.9% for males and females, respectively, over a 24 h period. These data on the stability of T_c in the male and female rat provide a valuable framework to study the acute and chronic effects of drugs, chemicals and other agents that affect temperature regulation.     

Development of thermoregulation in Hawaiian brown noddies (Anous stolidus pileatus)

1. 1.|Oxygen consumption ( ) and body temperture (T_b) of Hawaiian brown noddies (Anous stolidus pileatus [Aves: Laridae]) during late incubation and in the first 24 h after hatching were measured at ambient temperatures (T_a) between 28 and 38°C and between 15 and 43°C, respectively. Evaporative cooling by hatchings at T_a of 36–43°C was also measured.

2. 2.|Throughout the late incubation stages studied, and T_b both varied directly with T_a in an ectothermic pattern.

3. 3.|The hatchlings successfully regulated T_b at T_a between ca. 29 and 43°C.

4. 4.|The functional basis of the abrupt increase in thermoregulatory capacity with hatching is discussed.

Comparative aspects of the thermal biology of the short-tailed gerbil, Desmodillus auricularis, and the bushveld gerbil, Tatera leucogaster

1. 1. The response of oxygen consumption (VO₂), thermal conductance (C_d and C_min, body temperature (T_b), and evaporative water loss (EWL) of Tatera leucogaster and Desmodillus auricularis were measured over the range of ambient temperatures (T_a) from 5–35°C.

2. 2. Basal metabolic rate (BMR) of T. leucogaster was 0.841 ± 0.049 ml O₂ g⁻¹ h⁻¹ and lower than predicted, while that of D. auricularis was similar to the expected value (1.220 ± 0.058 ml O₂ g⁻¹ h⁻¹). D. auricularis had a high, narrow thermoneutral zone (TNZ) typical of nocturnal, xerophilic, burrowing rodents.

3. 3. D. auricularis and T. leucogaster regulated T_b over the range T_a = 5–35°C and kept EWL and dry thermal conductance at a minimum below the TNZ. However, the EWL of T. leucogaster increased rapidly above T_a = 30°C.

4. 4. After comparison with data from other species, it was concluded that there is an optimum size for xeric, nocturnal, burrowing rodents.

Thermoregulatory responses of old men to gradual changes in ambient temperature

1. 1. Thermoregulatory respones to gradual rise and fall in the ambient temperature (T_a) were compared between 8 old (68–78 years) and 8 younger (20–25 years) male subjects.

2. 2. Starting at T_a of 31.5°C (r.h. 40%), T_a was raised to 39.5°C, then lowered to 21.5°C, and raised back to 31.5°C at a constant rate of 0.3°C/min.

3. 3. Noticeable differences in responses between the age groups were as follows: decline of sweating rate and reduction of acral blood flow during room cooling were retarded in the aged group, with wider variations among individuals, compared with those in the younger group; the tympanic and oesophageal temperatures fell considerably during cooling in the elderly group, failing to return to the level at start during the rewarming of the room, in contrast to the younger group.

4. 4. Such sluggish responses may be attributed largely to reduced cutaneous thermal perception with advancing age.

Development of autonomic and behavioural thermoregulation in turkeys (Meleagris gallopavo)

1. 1.|Heat production (HP) and body temperature (T_b) measurements were conducted at ambient temperatures (T_a) between 10 and 40°C. In addition preference temperatures (PT) were determined in a temperature channel and T_b was measured at preferred T_a

2. 2.|The influence of age on T_b at constant, as well as at PT, was proved. Increasing age was accompanied by an elevation of T_b whereas HP remained constant in the mid-range of T_a

3. 3.|The lower T_b in the first days of life is suggested to result from a lower thermoregulatory set point during the postnatal period.

4. 4.|The PT were different for the observed types of behaviour. The PT at rest was higher than the PT during locomotion, food intake and drinking.