土壤水分胁迫对5个种源油松光合特性的影响

在盆栽条件下,对5个种源油松（山西中条山ZT,山西吕梁山LL,山西太行山TH,陕西洛南LN和陕西黄陵HL）幼苗进行了水分胁迫处理实验,对其净光合速率（P_n）、蒸腾速率（T_r）、气孔导度（G_s）、胞间CO₂浓度（C_i）、水分利用效率（WUE）及P_n与土壤含水量（SWC）的关系进行了研究。结果表明：油松幼苗的P_n、T_r和G_s均随水分胁迫程度的增加呈先上升后下降的趋势,C_i呈先下降后上升的趋势。其中TH种源的P_n、T_r和G_s最高,LN和HL种源的较低。干旱处理的第4天（SWC为15%~25%）,5个种源的P_n、T_r和G_s均达到处理期的最大值;第7天（SWC为7%~9%）,它们的P_n、T_r、G_s和WUE差异均极显著（p<0.01）,且大小顺序均为：ZT>TH>LL>HL>LN;处理的10天后（SWC小于5%）,LL、TH、LN、HL均只表现为呼吸作用。根据P_n与SWC的二次拟合方程（R²=0.980~0.997）中P_n为0时的SWC进行了抗旱性排序,依次为：TH>ZT>LL>HL>LN。     

An integrated diagnostic approach to understand drought tolerance in mulberry (Morus indica L.)

Four popular mulberry cultivars (Morus indica L. cvs.V-1, MR-2, S-36 and K-2) were assessed for drought tolerance with an integration of selective approaches. The potted plants were subjected to two watering treatments for 75 days: control pots were watered up to 100% field capacity (FC) and stressed pots were maintained at 25–30% FC. Net photosynthetic rate (P_n), stomatal conductance (g_s), transpiration rate (E) and instantaneous water use efficiency (WUE_i) were the key parameters to assess photosynthetic gas exchange performance. Drought caused marked down-regulation in leaf gas exchange in all cultivars (cvs) except V-1 which maintained better P_n, g_s, E and higher WUE_i under severe water deficit. All the four cvs also showed differential antioxidative responses under water stress. Higher concentrations of carotenoids, ascorbic acid, glutathione, α-tocopherol and proline were observed in the leaf extracts of V-1, while minimum accumulation of those metabolites was recorded with K-2 and S-36. An endogenous loss of α-tocopherol and higher lipid peroxidation were encountered in K-2, S-36 and MR-2, whereas V-1 showed minimum lipid peroxidation under water deficit regimes. Comparative morpho-anatomical analysis revealed a well-developed root system and a better anatomical architecture in V-1 which could further contribute tolerance during drought stress.     

A morphophysiological analysis of the effects of drought and shade on <Emphasis Type="Italic">Catalpa bungei</Emphasis> plantlets

The interactive effects of shade and drought on the morphological and physiological traits of Catalpa bungei plantlets were assessed. Seedling growth, biomass, biomass allocation, leaf morphology, chlorophyll (Chl) content and gas-exchange parameters were measured in plants raised for 3 months under three light levels [80% (HI), 50% (MI), 30% (LI)] and two water levels [moisture (M) and drought (D)]. The results showed that shade greatly decreased growth, biomass, leaf area (LA) and Chl a/b; increased specific leaf area (SLA) and Chl content; and reduced photosynthetic rate (P _n). Drought reduced the growth, biomass, LA, SLA, Chl a/b, P _n, stomatal conductance (G _s), transpiration rate (T _r) and intercellular carbon dioxide concentration (C _i) and increased the Chl content. Stomatal closure was an early physiological response to water stress. Light, water and their interaction significantly affected plant traits and their bivariate relationships. The phenotypic plasticity index of light (0.47) was much higher than that of water (0.21), indicating that light was the main driver of the variations observed. Under drought stress, growth, biomass, leaf and stem biomass allocation significantly decreased in the HI and MI environments, whereas no significant difference was observed in growth or biomass parameters under the LI condition. Furthermore, no significant difference was observed in P _n, G _s, or T _r under the LI condition under water stress. Our results showed that shade did not alter the negative effects caused by drought stress in MI but did alleviate the negative effects of the LI condition. In summary, the effect of drought on C. bungei plantlets depends on the irradiance conditions.     

漓江上游毛竹生理生态特征对不同土壤水分的响应

漓江上游毛竹林面积大,是我国毛竹最南端产区。该研究针对当地季节性干旱问题,通过模拟降水使土壤水分变化,共设立了5个毛竹水分处理小区(CK.对照;A.无降水+覆膜;B.降水5 mm+覆膜;C.降水10mm+覆膜;D.降水20 mm+覆膜),并与HM(木荷Schima superba)(自然状态)进行对比。结果表明:土壤水分变化影响了毛竹叶片水势和叶绿素的变化,叶片白天水势下降,傍晚均可恢复到凌晨水势。C处理的毛竹午间水势下降值最小,叶绿素含量也最高。本研究区位于最南端产区,毛竹的光合生产力也属偏低水平。适当的土壤水分亏缺,毛竹表现出相对的高净光合速率(P_(n))、高蒸腾速率(Tr)、低水分利用效率(WUE)的特点;过多或过少土壤水分,则为低P_(n)和Tr,但高WUE。毛竹叶片的P_(n)与气孔导度Gs呈极显著的正相关关系,说明毛竹的光合速率受气孔调节明显;Tr与午时叶水势呈负相关(符合二项式函数)关系,土壤水分问题造成的叶片水分不足同时也影响了毛竹的Tr。水分亏缺,P_(n)主要由气孔调节,但水分过多导致P_(n)的下降应该是由气孔导度的下降和叶肉细胞光合能力的下降共同作用的结果。水分过少或过多均对毛竹生理生态过程产生负效应。相对于木荷,毛竹的P_(n)较高,但同时也消耗更多的水分。     

Water-use efficiency and carbon isotope discrimination in two cultivars of upland rice during different developmental stages under three water regimes

A pot experiment was conducted in a glasshouse to clarify and quantify the effect of plant part, water regime, growth period, and cultivar on carbon isotope discrimination (CID), and to analyze the relationship between CID, stomatal behavior and water-use efficiency (WUE). The experiment was comprised of two upland rice (Oryza sativa L.) cultivars and three water regimes (100, 70, and 40% of saturation moisture) in a completely randomized design. Plants were harvested at tillering, flowering, and maturity. No significant cultivar differences in above-ground dry matter-based WUE (WUE_A) and total dry matter-based WUE (WUE_T) were observed. WUE_A (and WUE_T) increased with water stress up to tillering, but decreased with water stress after tillering. Significant cultivar differences in CID in all the analyzed plant parts were observed at all harvest times. Reduction in CID with water stress was greatest at tillering, and the effect was less pronounced at flowering and at maturity. At each harvest, the effect was most pronounced in newly developed plant parts. Root and grain tended to have the lowest CID values, and stem the highest, at all harvest times. A negative relationship was observed between CID measured at tillering and WUE_A (and WUE_T) measured over the period from seedling to tillering, whereas a reverse relationship was obtained between CID measured at flowering and WUE_A (and WUE_T) measured over the period from tillering to flowering, and an unclear relationship between CID measured at maturity and WUE_A (and WUE_T) measured over the period from flowering to maturity. The ratio of the intercellular and atmospheric concentration of CO₂ (C_i/C_a) were closely associated with CID throughout the water regimes when one cultivar was considered, however, cultivar differences in CID were not related to variations in C_i/C_a. The results indicate that significant cultivar difference existed in CID in all the analyzed plant parts at all harvest times, while corresponding difference in WUE_A (and WUE_T) between the cultivars was not necessarily consistent. Abbreviations: WUE – water-use efficiency; WUEi – instantaneous WUE (or leaf transpiration efficiency); ADM – above-ground dry matter; TDM – total dry matter; WUE_A– ADM-based WUE; WUE_T– TDM-based WUE} CID – carbon isotope discrimination; NL – the newest leaves; FEL – recently fully expanded leaves; FL – flag leaves; P – photosynthesis rate; g – leaf stomatal conductance to water vapor; C_i– intercellular CO₂ concentration; C_a– atmospheric CO₂ concentration; T – transpiration rate; gs – total conductance of CO₂     

Photosynthesis, water use efficiency and stable carbon isotope composition are associated with anatomical properties of leaf and xylem in six poplar species

Although fast‐growing Populus species consume a large amount of water for biomass production, there are considerable variations in water use efficiency (WUE) across different poplar species. To compare differences in growth, WUE and anatomical properties of leaf and xylem and to examine the relationship between photosynthesis/WUE and anatomical properties of leaf and xylem, cuttings of six poplar species were grown in a botanical garden. The growth performance, photosynthesis, intrinsic WUE (WUE_i), stable carbon isotope composition (δ¹³C) and anatomical properties of leaf and xylem were analysed in these poplar plants. Significant differences were found in growth, photosynthesis, WUE_i and anatomical properties among the examined species. Populus cathayana was the clone with the fastest growth and the lowest WUE_i/δ¹³C, whereas P. × euramericana had a considerable growth increment and the highest WUE_i/δ¹³C. Among the analysed poplar species, the highest total stomatal density in P. cathayana was correlated with its highest stomatal conductance (g_s) and lowest WUE_i/δ¹³C. Moreover, significant correlations were observed between WUE_i and abaxial stomatal density and stem vessel lumen area. These data suggest that photosynthesis, WUE_i and δ¹³C are associated with leaf and xylem anatomy and there are tradeoffs between growth and WUE_i. It is anticipated that some poplar species, e.g. P. × euramericana, are better candidates for water‐limited regions and others, e.g. P. cathayana, may be better for water‐abundant areas.     

桂西南喀斯特地区优势木本经济植物叶功能性状变异及其适应策略

植物叶功能性状可直接或间接地反映植物对环境变化的响应与适应策略.该文采用野外气体交换测量和实验室分析相结合的方法,以桂西南典型喀斯特灌丛常见种龙须藤和黄荆为对照,对该区域5种优势木本经济植物的叶功能性状指标及其关系进行研究.结果表明:(1)11个叶功能性状指标种内均存在不同程度的变异,除胞间CO2浓度和水分利用效率外,...     

前期水淹对牛鞭草后期干旱胁迫光合生理响应的影响

水淹和干旱是限制植物生长的两种主要环境因子。三峡库区消落带由于其特殊的地形条件和人工水文节律,呈现以年度为周期的“水淹-落干”交替变化的水文变动特征,在消落带生长的植物因此受到水淹和干旱交替胁迫的双重影响。为了探究库区蓄水对消落带植被干旱耐受性的影响,以当年生牛鞭草扦插苗为试验对象,设置对照组(CK)、表土水淹组(SF)、全淹组(TF)、对照-干旱组(CD)、表土水淹-干旱组(SFD)、全淹-干旱组(TFD)6个处理组,研究不同水分处理对牛鞭草光合特性的影响。结果表明:(1)水淹和干旱胁迫均对牛鞭草光合特性造成显著影响;(2)水淹胁迫阶段,与CK组相比,牛鞭草SF和TF组净光合速率、气孔限制值和水分利用效率显著下降,胞间CO_2浓度显著上升;(3)干旱胁迫阶段,牛鞭草CD和SFD组净光合速率、气孔导度、胞间CO_2浓度和蒸腾速率等光合参数显著低于CK组,TFD组净光合速率、气孔导度、胞间CO_2浓度和蒸腾速率等指标与CK组无显著差异;(4)复水阶段,各处理组净光合速率、气孔导度、胞间CO_2浓度和蒸腾速率等指标均与CK组无显著差异。研究表明,前期水淹并未增加牛鞭草对后期干旱胁迫的敏感性,牛鞭草对水淹和干旱胁迫均具有较好的耐受性,有助于牛鞭草对库区消落带生境变化的适应性。     

Physiological foundation for the differences of long-term water use efficiency among Populus deltoides clones

With randomized complete block design, long-term water use efficiency (WUE_L), photosynthetic parameters (net photosynthetic rate Pn, transpiration rate Tr, stomatal conductance Gs, instantaneous water use efficiency WUE_i, maximum photosynthetic rate P max, light saturation pointLSP, carboxylic efficiency Ce), stomatal properties (frequency, size, superior/inferior stoma amount ratio) and root/shoot ratio of twelve Populus deltoids clones were studied under water stress in a greenhouse. Four water treatments were designed, namely, well-watered condition, slight water stress, moderate water stress, and severe water stress. Although the volumes of irrigated water for different treatments were the same, the irrigation intervals were strictly controlled. The results showed that long-term water use efficiency (WUE_L) differences among tested clones were obvious and became greater with the increase in water stress. J₂, J₆, J₇, J₈, and J₉ were excellent clones with high WUE_L. Stomatal frequency, stomatal size, Gs, Tr, Pn, and root/shoot ratio of J₂et al were moderate, whereas the superior/inferior ratio, P_max, LSP, Ce of J2et al were higher than other clones. The interrelations between WUE_L and the physiological parameters were analyzed. The results revealed that the WUE_L differences were induced by a series of physiological parameters, and clones with higher WUE_L always had strong photosynthetic capacity, higher WUE_i, and optimum root/shoot ratio.     

两种高质牧草不同生育期光合生理日变化及光响应特征

于2010年5月25日(拔节、分枝期)、7月6日(抽穗、结荚期)、8月25日(开花期)晴朗天气,采用LI-6400便携式光合作用测定系统对新引1号东方山羊豆和柳枝稷各项光合生理生态指标进行了测定。结果表明:(1)新引1号东方山羊豆净光合速率(Pn)日变化呈双峰曲线,存在"光合午休"现象;分枝期Pn、光能利用效率(LUE)、水分利用效率(WUE)日均值高于结荚期,而结荚期的叶温(Tl)、蒸腾速率(Tr)、气孔导度(Gs)、胞间CO2浓度(Ci)日均值高于分枝期。(2)柳枝稷的Pn日变化呈单峰曲线,拔节期Pn、Tr日均值高于抽穗期,开花期最低;WUE与Ci日均值在开花期最高,拔节期次之,抽穗期最小;Tl、LUE日均值在抽穗期最高,拔节期次之,开花期最小。(3)Pn与Tr、Gs、叶片气孔限制值(Ls)、光合有效辐射(PAR)具有极显著正相关关系,与Ci呈极显著负相关;Tr与Gs、叶温下蒸汽压亏缺(Vpdl)、气温(Ta)、Tl、PAR均呈极显著正相关关系,与大气CO2浓度(Ca)呈显著负相关;Tl、Gs与PAR呈极显著正相关。(4)通过光响应曲线的绘制及相关生理指标的计算,结合相关评价标准,得出柳枝稷为阳生植物,而新引1号东方山羊豆为耐荫植物,且柳枝稷比新引1号东方山羊豆对光环境的适应性强。     

冠层高度对毛竹叶片光合生理特性的影响

借助LI-6400便携式光合作用系统,研究了冠层高度对不同林龄毛竹(Phyllostachys pubescens)叶片光合生理特性和水分利用效率(WUE)的季节性影响,为促进毛竹林碳汇能力和生产力提升的林分结构调整等可持续栽培技术提供理论依据。结果表明:(1)出笋期,不同竹龄毛竹叶片净光合速率(Pn)和蒸腾速率(Tr)的日均值呈现出冠层上部小于冠层下部的梯度变化趋势,且2a生毛竹不同冠层Pn日均值大于3a生毛竹;孕笋行鞭期,不同林龄毛竹各时间点Pn值和日均值、以及2年生毛竹各时间点的Tr值均为冠层上部大于冠层下部。各生长季节,不同林龄毛竹个体叶片的气孔导度(Gs)均与Tr的变化趋势一致。(2)2年生毛竹各季节仅冠层上部叶片会出现"光合午休",而3年生毛竹仅于出笋期时各冠层叶片出现"光合午休"现象。(3)出笋期毛竹叶片WUE日均值随着冠层高度增加而增加,这种变化趋势不受竹龄影响;而孕笋行鞭期,仅2年生毛竹叶片WUE日均值随着冠层高度增加而下降。不同冠层高度的孕笋行鞭期毛竹叶片WUE日均值都显著高于出笋期;冠层高度对毛竹叶片气体交换特性和WUE的影响受生长发育关键期的季节因素影响,且毛竹叶片WUE与Gs之间存在负相关关系,其不受毛竹个体年龄和叶片冠层高度影响。(4)不同生长季节各冠层叶绿素a/b值均随着冠层高度下降而降低,不同林龄毛竹叶片叶绿素含量基本随着冠层自上而下呈逐渐增加的趋势。各生长季节,不同林龄个体叶片氮素含量、比叶重随冠层高度垂直变化趋势与叶片Pn日均值的垂直变化趋势一致。研究认为,毛竹不同冠层部位叶片通过改变形态、氮素含量来适应不同生长季节生长环境的变化,以便充分利用光能提高光合能力。     

Photosynthetic responses of Populus przewalski subjected to drought stress

Cuttings of P. przewalski were exposed to two different watering regimes which were watered to 100 and 25 % of field capacity (WW and WS, respectively). Drought stress not only significantly decreased net photosynthetic rate (P _N), transpiration rate (E), stomatal conductance (g _s), efficiency of photosystem 2 (PS2) (F_v/F_m and yield), and increased intrinsic water use efficiency (WUE_i) under controlled optimal conditions, but also altered the diurnal changes of gas exchange, chlorophyll fluorescence, and WUE_i. On the other hand, WS also affected the P _N-photosynthetically active radiation (PAR) response curve. Under drought stress, P _N peak appeared earlier (at about 10:30 of local time) than under WW condition (at about 12:30). At midday, there was a depression in P _N for WS plants, but not for WW plants, and it could be caused by the whole microclimate, especially high temperature, low relative humidity, and high PAR. There were stomatal and non-stomatal limitations to photosynthesis. Stomatal limitation dominated in the morning, and low P _N at midday was caused by both stomatal and non-stomatal limitations, whereas non-stomatal limitation dominated in the afternoon. In addition, drought stress also increased compensation irradiance and dark respiration rate, and decreased saturation irradiance and maximum net photosynthetic rate. Thus drought stress decreased plant assimilation and increased dissimilation through affected gas exchange, the diurnal pattern of gas exchange, and photosynthesis-PAR response curve, thereby reducing plant growth and productivity.     

The Effect of Soil Moisture, Nitrogen Fertilization and some Meteorological Factors on Stomatal Aperture of Coffea Arabica L.

Stomatal aperture in irrigated and non-irrigated plants of Coffeaarabica L. was studied by measuring the infiltration into theleaf of mixtures of iso-propanol and distilled water. In potexperiments, stomatal aperture proved to be closely relatedto soil moisture content. In the field, the coefficient of thecorrelation between stomatal aperture and soil moisture contentin the 10 ft deep rooted zone was 0.929 (r² = 0.863) in thedry season and 0.773 (r² = 0.598) in a period of intermittentrain. Stomatal aperture was invariably inversely correlatedwith the calculated soil moisture deficits of five irrigationtreatments. Application of nitrogen fertilizer increased stomatalaperture but no explanation can be offered for this effect.Stomatal aperture as measured by this particular method waslinearly correlated with temperature, vapour-pressure deficitand radiation, and also related to the time of day.     

5个油松种源光合特性的比较研究

为了揭示自然条件下不同种源油松光合特性的差异,为优良种源选择提供依据,在黄土高原种源实验地,对5个油松种源（陕西洛南LN,陕西黄陵HL,山西吕梁山LL,山西灵空山LK,辽宁千山QM）幼苗的光合生理特征及其与环境因子的关系进行了研究。结果表明：5个油松种源的净光合速率（P_n）呈双峰型,蒸腾速率（T_r）、气孔导度（G_s）亦基本呈双峰型,第1峰值均出现在上午8:00,有明显的光合午休现象。种源QM的水分利用效率（WUE）日变化呈单峰性,峰值出现在10:00,而种源LN、LL、LK和HL呈双峰型,第一峰值出现在8:00,第二峰值出现在12:00~16:00。种源LN、LL、LK和QM午间净光合速率的下降主要由气孔因素引起的,而种源HL则主要由叶肉细胞同化能力的降低引起的。种源LK的日均P_n、T_r和WUE均高于其他种源,是高光合、高蒸腾和高水分利用效率的种源,而种源HL属于低光合、低蒸腾和低水分利用效率的种源。T_a是影响各种源的P_n的首要因子,其次是VPD;RH是影响种源LN、LL和LK的T_r的首要因子;而T_a和VPD是影响种源HL和QM的T_r的主要因子。     

Effects of temperature on leaf hydraulic architecture of tobacco plants

Main Conclusion

Modifications in leaf anatomy of tobacco plants induced greater leaf water transport capacity, meeting greater transpirational demands and acclimating to warmer temperatures with a higher vapor pressure deficit. Temperature is one of the most important environmental factors affecting photosynthesis and growth of plants. However, it is not clear how it may alter leaf hydraulic architecture. We grew plants of tobacco (Nicotiana tabacum) ‘k326’ in separate glasshouse rooms set to different day/night temperature conditions: low (LT 24/18 °C), medium (MT 28/22 °C), or high (HT 32/26 °C). After 40 days of such treatment, their leaf anatomies, leaf hydraulics, photosynthetic rates, and instantaneous water-use efficiency (WUE_i) were measured. Compared with those under LT, plants exposed to HT or MT conditions had significantly higher values for minor vein density (MVD), stomatal density (SD), leaf area, leaf hydraulic conductance (K _leaf), and light-saturated photosynthetic rate (A _sat), but lower values for leaf water potential (ψ _l) and WUE_i. However, those parameters did not differ significantly between HT and MT conditions. Correlation analyses demonstrated that SD and K _leaf increased in parallel with MVD. Moreover, greater SD and K _leaf were partially associated with accelerated stomatal conductance. And then stomatal conductance was positively correlated with A _sat. Therefore, under well-watered, fertilized conditions, when relative humidity was optimal, changes in leaf anatomy seemed to facilitate the hydraulic acclimation to higher temperatures, meeting greater transpirational demands and contributing to the maintenance of great photosynthetic rates. Because transpiration rate increased more with temperature than photosynthetic rate, WUE_i reduced under warmer temperatures. Our results indicate that the modifications of leaf hydraulic architecture are important anatomical and physiological strategies for tobacco plants acclimating to warmer temperatures under a higher vapor pressure deficit.     

甘肃马先蒿寄生对禾草内生真菌共生体光合特性的影响

[目的]甘肃马先蒿与感染内生真菌的禾草(紫花针茅和麦宾草)建立根寄生关系,有关内生真菌对根寄生危害禾草光合作用调控方面的研究较少。[方法]本研究以紫花针茅和麦宾草带菌(E+)、不带菌(E-)植株为研究对象,研究甘肃马先蒿寄生和未寄生处理对紫花针茅和麦宾草E+、E-植株不同生长阶段光合特性影响的动态变化。[结果]甘肃马先蒿寄生显著降低紫花针茅和麦宾草的净光合速率、蒸腾速率和气孔导度,而胞间二氧化碳浓度和水分利用率却显著增加,这与禾草是否感染内生真菌无关。甘肃马先蒿寄生后E+紫花针茅的净光合速率、气孔导度和蒸腾速率高于E-植株,而麦宾草E+植株的净光合速率、气孔导度和蒸腾速率却低于E-植株;同时,根寄生条件下E+紫花针茅的胞间二氧化碳浓度和水分利用率低于E-植株;而E-麦宾草植株的胞间二氧化碳浓度和水分利用率却低于E+植株。[结论]内生真菌侵染影响甘肃马先蒿根寄生危害禾草的光合作用;甘肃马先蒿和内生真菌同时成为禾草营养消耗库时,内生真菌与禾草的共生关系处于一种互惠共生和相互拮抗的动态变化。     

The role of abscisic acid and water relations in drought responses of subterranean clover

The role of water relations and abscisic acid (ABA) in the responsesto drought were studied in a mediterranean forage crop, Trifoliumsubterraneum L. under field conditions. Soil and plant waterstatus, leaf gas exchange parameters, and xylem sap ABA contentwere determined at different times during a long-term soil dryingepisode in irrigated and droughted plants. The diurnal time-coursesof these parameters were also measured at the end of a droughtperiod. In response to soil drying stomatal conductance (g) was reducedearly to 50% that of irrigated plants before any substantialchange in water potential was detected. A close logarithmicregression between photosynthesis rate (A) and g was present.For the first weeks of drought the decline in A was less pronouncedthan in g, thus increasing water use efficiency. Stomatal conductanceduring diurnal time-courses showed no consistent relationshipswith respect to etther ABA or leaf water potential. Throughoutthe experimental period dependence of g on leaf water statuswas evident from the tight correlation (r²=0.88, P<0.01)achieved between stomatal conductance and midday water potential,but the correlation was also high when comparing g with respectto ABA content in xylem sap (r=0.83, P<0.001). However, thestomata from drought acclimated plants were apparently moresensitive to xylem ABA content. For similar xylem ABA concentrationsstomatal conductance was significantly higher in irrigated thanin waterstressed plants. Key words: Drought, stomatal conductance, water potential, abscisic acid     

The relationship between the soil water storage and water-use efficiency of seven energy crops

The aim of this work was to determine two types of photosynthetic water-use efficiency in order to examine their utility as selection criteria for tolerance of energy crops to soil water deficit. Furthermore, effects of crop cultivation on soil water content and storage were investigated. Seven energy crops were examined: miscanthus, prairie cordgrass, willow, thorn-free rose, Virginia mallow, Bohemian knotweed, and topinambour. The highest values of instantaneous (WUE) and intrinsic (WUE_i) water-use efficiencies were found for miscanthus and prairie cordgrass. The reduction of WUE and/or WUE_i was caused mainly by a rapid rise in the transpiration rate and a greater stomatal conductance, respectively. Principal component analysis showed that neither WUE nor WUE_i could be recommended as universal selection criteria for the drought tolerance in different energy crops. The proper localization of soil with a good supply of water is most the important condition for energy crop plantations.     

Water-use efficiency of a mallee eucalypt growing naturally and in short-rotation coppice cultivation

This study compared mature Eucalyptus kochii subsp. plenissima trees in inner regions or edges of natural bushland to young trees belt-planted through cleared agricultural land as uncut saplings or regenerating coppice over 2.7 years at Kalannie, Western Australia (320 mm annual rainfall). We assessed the ability of the species to alter its gas exchange characteristics, leaf physical attributes, and water-use efficiency of foliar carbon assimilation (WUE _i) or of total dry matter production (WUE _DM). Stomatal conductance (g _s) varied five-fold between treatment means, with coppices exhibiting greatest values and mature bush least. Photosynthetic rates followed this trend. Leaf photosynthetic capacity estimated by chlorophyll content varied 1.3-fold parallel with variations in leaf thickness, with coppices rating lowest and mature edge trees most highly. WUE _i varied 1.5-fold between treatments and was greatest in mature inner-bush and edge trees. Leaf photosynthetic capacity and g _s were both correlated with WUE _i. Carbon isotope composition (δ¹³C values) of new shoot dry matter produced early in a seasonal flush were similar to those of root starch but when averaged over the whole season correlated well with WUE _i and gas exchange characteristics of trees of each treatment. Coppices showed poorest WUE _i and most negative shoot tip δ¹³C but their WUE _DM was high. This discrepancy was suggested to relate to carbon allocation strategies in coppices favouring fast growth of replacement shoots but not of roots. Physiology of coppice growth of E. kochii is usefully geared towards both rapid and water-use efficient production of woody biomass in water limited environments.     

黑杨无性系间长期水分利用效率差异的生理基础

试验于2003年6月10日至8月20日在温室中进行,采用完全随机区组设计,4个水分处理（充分供水、轻度胁迫、中度胁迫、重度胁迫）,6次重复.各水分处理严格控制浇水间隔：充分供水,每2d浇水1次;轻度胁迫,每3d浇水1次;中度胁迫,每4d浇水1次;重度胁迫,每5d浇水1次.每次浇水的量相同,500ml.试验材料为美洲黑杨杂交无性系,父本为哈佛杨（Populus deltoides Bartr.CI.‘Harvard＇）,母本为山海关杨（Populus deltoides Bartr.CV.‘shanhaiguanensis＇）,共10个无性系,编号为J1～J10.以当前优良品系108杨（Populus euramericana CV.‘114/69＇）和中林46杨（Populus deltoides Bartr.CV.‘Zhonglin 46＇）为对照,编号为CK1、CK2.测定了12个无性系间长期水分利用效率（WUEL）、光合参数（净光合速率Pn、蒸腾速率Tr、气孔导度Gs、瞬时水分利用效率WUEi、最大净光合速率Pmax、光饱和点LSP、羧化效率Ce）及气孔特征参数（气孔频度、气孔大小、上/下表皮气孔数目比）、根冠比的差异,并深入分析了光合参数与WUEL、气孔特征参数与WUEL、根冠比与WUEL及光合参数之间的相互关系.结果表明：无性系间WUEL存在差异,这种差异随水分胁迫的加剧而更加显著.无性系间WUEL的差异在4个水分处理下表现出一致性,即WUEL最优的都是J2,其次为J6、J7、J8、J9.高WUEL的J2等无性系其气孔频度、气孔大小、Gs、Tr、Pn和根冠比在所有无性系中都处于适中的位置.它们的上/下表皮气孔数目比大,Pmax、LSP、Ce明显优于对照.Pmax高、LSP高、Ce大,表明高WUEL的J2等无性系光合能力强.Gs、Tr、Pn适中,表明J2等无性系在保证具有高WUEi的同时能保持较强的光合能力.根冠比适中,表明J2等无性系的光合产物在根、冠之间分配合理,能有充足的根系分布保证水分的供应,同时又有较多的光合产物积累在地上部分.气孔特征参数的差异是导致无性系间光合能力和WUEi差异,并最终导致WUEL差异的一个主要因子.气孔频度和气孔大小适中的无性系,其Gs、Tr、Pn适中,WUEi较高;上/下表皮气孔数目比大的无性系则具有较强的光合能力.无性系间WUEL的差异是一系列具有差异的生理参数共同作用的结果,高WUEL的无性系通常光合能力强、WUEi高、根冠比适中.今后工作中选育高WUE的无性系时,除需关注单个生理参数的突出作用外,更应关注生理参数的协同作用.