长白落叶松生理生态特性的CO2响应及意义

人工气候室中测定了不同ＣＯ２（０－１０００ｍｇｍ＾－３）浓度时不同无性系长白落叶松二年生扦插苗的净光合速率,蒸腾速率和水分利用率等,并做了回归分析。结果表明,净光合速率和水分利用率随ＣＯ２浓度的增加而升高,蒸腾速度随ＣＯ２浓度的增加而降低,但不同无性系的ＣＯ２响应方式及强度不同,不同无性系长白落叶松的ＣＯ２补偿点亦不同,这些差异是无性系选择的基础上,在无性系选择中,净光合速率和水分利用率的ＣＯ２响     

Gas exchange in a 20-year-old stand of Scots pine

The rates of net photosynthesis and transpiration of one-year-old shoots were measured in situ in five different positions within the crown of a young Scots pine ( Pinus sylvestris L.). Measurements were carried out on south- and north-facing shoots on the third and sixth whorls, respectively, and on an east-facing shoot on the ninth whorl. In another investigation the rates of gas exchange of one-year-old shoots on the third whorl of eight different trees were studied. The measurements were made during June and July, 1977, under non-limiting conditions of soil water. The daily rates of net photosynthesis in whorls three and six followed the light conditions closely, with higher rates for the south side of each whorl and higher for whorl three than six. On whorl nine the shoot had a higher light compensation point and a low rate of photosynthesis at light saturation compared to the other shoot positions. The quantum yield for the shoot on the lowest whorl, as estimated from the linear part of the light response curve, was 50% lower than for shoots on whorl three and six.
The variation in transpiration rates was pronounced within the crown as an effect of differences in the absolute value and diurnal course of stomatal conductance. The variation in net photosynthesis was small between different trees while the variation in transpiration was much higher. Thus the variation in water use efficiency was great. It is concluded that it is possible to extrapolate measurements of net photosynthesis from individual trees up to a stand level without introducing large errors in the estimate. More caution must be paid before extrapolating tree transpiration up to stand transpiration. However, before an extrapolation of gas exchange is made from tree to stand level the variation in net photosynthesis and transpiration rate within the crown must be known.     

Effects of air pollutants on the wintertime water economy of the Scots pine Pinus silvestris

The changes effected by air-borne pollutants in the wintertime water economy of the Scots pine were investigated in industrial and urban environments in Oulu (65°N). Pine needles were found to undergo a wintertime water stress, which was more intense in the polluted area than in the less polluted environment. The water stress of the needles was found to be the more severe, the more pollutants had accumulated in the needles. In the needles of the trees growing in the polluted area, transpiration started shortly after they had been brought into laboratory even at midwinter, but the healthy trees were not equally sensitive in their response. When the weight loss of branches was observed in outdoor conditions, it was noted that the branches brought from the polluted area lost weight more rapidly than the branches of the healthy area. Air-borne pollutants hence constitute an obvious additional risk to the wintering of plants, particularly their water economy.     

Differences in foliage quality of young jack pine (Pinus banksiana Lamb.) on burned and clearcut sites: effects on jack pine budworm (Choristoneura pinus pinus Freeman)

Summary Suitability of young jack pine as a host for jack pine budworm was examined on similarly-aged trees growing on two areas previously burned in wildfires and on two previously clearcut areas in northwest Wisconsin. Nitrogen, monoterpenes, and moisture levels of foliage, and xylem water potential were measured and related to larval survival and pupal weight of caged jack pine budworm larvae. Nitrogen, monoterpenes, needle weight, and needle moisture were higher in trees growing on clearcut sites than on burned area trees. Surival of budworms to early and late instar, pupation, and adult eclosion was greater for larvae caged on clearcut-area trees than on burned-area trees. Female pupal weight differed between older (ca 10 years old) and younger (ca 8 years old) trees, but not between clearcut and burned areas. Mean female pupal weight was greatest on lownitrogen trees, where larval survival was lowest. Foliar nitrogen was consistently included as a significant predictor in budworm survival regressions. Regressions indicated larval survival and pupal weight may be associated with different tree- and foliage-related traits. Results suggest long-lasting effects of previous forest disturbance may subsequently affect herbivorous insects such as jack pine budworm.     

The Water Relations of Pinus sylvestris II. Comparative Field Studies of Water Potential and Relative Water Content

Comparative field studies of water potential and relative water content in needles of Scots pine, Pinus sylvestris L., were carried out in September-October 1965, in June 1966 and in July-August 1968. The sample trees were grafts, planted in 1946 and belonging to two clones, growing in close proximity and under the same environmental conditions. The main subject of the investigation was to determine whether differences in water potential and/or relative water content existed between these two clones, and if these differences could be correlated to the growth differences and thus aid in the development of selection criteria. The results obtained demonstrate such differences in water potential but not in relative water content. The differences were not consistent through the experimental periods. The clone which had the highest water potentials in June 1966, had the lowest in September-October 1965 and in July-August 1968. The results revealed that the clone which showed the fastest total growth, normally had the lowest water potentials when irradiated. In 1968 the current and the previous season's needles were separately investigated. The water potential and relative water content were always higher in the current season's needles. Highly significant negative correlations between water potential or relative water content and irradiance, temperature, and vapour pressure deficit were found.     

Effects of fire season and soil fertility on clonal growth in a pyrophilic forb,Pityopsis graminifolia (Asteraceae)

We experimentally manipulated fire season in a longleaf pine sandhill community in north Florida in 1990 and 1992. We determined the size and demography of shoots, rhizomes, and clones of Pityopsis graminifolia from late 1990 to early 1993. In addition, we examined shoot responses to seasonal variation in canopy/litter removal and soil fertility in 1992. May fires caused a higher short-term rate of increase in shoot density than did either January fires or August fires. The combination of canopy/litter removal and mineral nutrient addition as part of the clipping experiment revealed a similar effect on shoot density in May. Fire season influenced clone structure. May fires resulted in greater numbers of shoots/clone than did January or August fires. January-burned plots had clones and rhizomes that contained larger (but fewer) shoots than did May-burned or August-burned plots. We suggest that such variation in clone structure may indicate a greater capacity of clones to grow laterally following May fires than following either January or August fires. This capacity is positively associated with the likelihood that longleaf pine savannas will be burned by lightning fires at different times during the year.     

Water-related Phenomena in Winter Buds and Twigs of Picea abies L. (Karst.) until Bud-burst: A Biological, Histological and NMR Study

This paper investigates the uptake, transport, state and self-diffusionof water in twigs and buds ofPicea abies L. (Karst.) trees inwinter until reactivation in spring. The presence or absenceof xylem in embryonic shoots, as well as the intensity and typeof bud dormancy were also studied. Three clones of P. abieswere grown in a forest in north-eastern France. The clones differedin their timing of bud-burst, with the two clones from the Vosgesshowing different degrees of early bud-burst and the clone fromPoland showing late bud-burst. One-bud cuttings grown in standardforcing conditions showed a great difference in dormancy betweenthe two provenances, but only a small difference between thetwo Vosges clones. Earliness of bud-burst was not strongly linkedto the intensity of dormancy. A dye experiment combined withlight microscopy indicated increased velocity of water transportin stems up to a maximum in April, initial entry of water intoembryonic shoots, protoxylem differentiation in embryonic shootsfrom April, and then, shortly before bud-burst, water transportthrough the newly-formed protoxylem almost up to the meristem.Nuclear magnetic resonance measurements of the transverse relaxationtime (T₂) and the self-diffusion coefficient of water confirmedthese observations and showed water availability in embryonicshoots. The sequence of water-related phenomena occurring inearly spring was the same in the three clones, but was earliestin the Vosges clone with the earliest bud-burst and latest inthe Polish clone with late bud-burst. The results imply thatthis sequence of water-related phenomena leads to bud-burst.Copyright 2000 Annals of Botany Company Bud, bud-burst, dormancy, embryonic shoot, growth capacity, nuclear magnetic resonance (NMR), Norway spruce,Picea abies L (Karst.), self-diffusion, stem, water, xylem     

Sap flow as an indicator of transpiration and the water status of young apricot trees

The relationship between water loss via transpiration and stem sap flow in young apricot trees was studied under different environmental conditions and different levels of soil water status. The experiment was carried out in a greenhouse over a 2-week period (November 2–14, 1997) using three-year-old apricot trees (Prunus armeniaca cv. Búlida) growing in pots. Diurnal courses of leaf water potential, leaf conductance and leaf turgor potential also were recorded throughout the experiment. Data from four days of different enviromental conditions and soil water availability have been selected for analysis. On each of the selected days the leaf water potential and the mean transpiration rates were well correlated. The slope of the linear regression of this correlation, taken to indicate the total hydraulic resistance of the tree, confirmed an increasing hydraulic resistance under drought conditions. When the trees were not drought stressed the diurnal courses of sap flow and transpiration were very similar. However, when the trees were droughted, measured of sap flow slightly underestimated actual transpiration. Our heat-pulse measurements suggest the amount of readily available water stored in the stem and leaf tissues of young apricot trees is sufficient to sustain the peak transpiration rates for about 1 hour. This revised version was published online in June 2006 with corrections to the Cover Date.     

A comparative study of the phytotoxic effects of siricid woodwasps on conifers

The effects of siricid mucus and the symbiotic fungus injected artificially, or by oviposition of caged females on young conifer trees were investigated in a comparative study of the phytotoxicity caused by seven species of siricid woodwasps. Dilute solutions of mucus were bioassayed using detached shoots. Rapid physiological changes in the radial growth of the stem, quantity of starch in the leaves, leaf pressure and colour of the foliage of living trees were induced by only one species, Sirex noctilio. Solutions of S. noctilio and S. cyaneus mucus caused premature senescence of needles on detached shoots. The other species, Sirex juvencus, Urocerus gigas, U. augur, U. sah and Xeris spectrum , produced no phytotoxic symptoms in living trees and less rapid senescence of needles on detached shoots. These differences are discussed in relation to the ecology of siricids in the northern hemisphere and the successful establishment of S. noctilio in pine plantations of Australasia.     

Control of Water Loss by Actively Growing Sitka Spruce Seedlings after Transplanting

The roots of actively growing Sitka spruce seedlings were disturbedand damaged to different degrees by transplanting treatmentscarried out in a growthroom. The treatments stopped root extensionand after 2–4 h the transpiration rate of treated plantsdeclined, indicating closure of the stomata, and transpirationcontinued to decrease for a few days. The hydraulic conductivityof the root system was reduced slightly by the treatment butleaf water potential increased or remained unchanged, thereforeno water stress occurred to account for closure of the stomata.Measurements on detached shoots indicated that the water storagecapacity was too small to accommodate changes in the vascularwater supply without reducing leaf water potential. The measuredresponses of the plant were not affected by girdling the baseof the stem prior to root treatment. It is suggested that thetranspiration rate of treated plants was reduced as a resultof a chemical stimulus originating in the root and acting onthe stomata.     

基于稳定同位素和热扩散技术的张北杨树水分关系差异

利用稳定氢同位素和热扩散技术研究张北防护林杨树的水分来源和蒸腾耗水,分析确定未退化与退化杨树的水分关系差异.结果表明:在生长季节中退化杨树主要利用0～30 cm土壤水分,未退化杨树主要利用30～80 cm土壤水分,两者的水分来源不同.旱季时,未退化杨树利用深层土壤水分和地下水的比例明显高于退化杨树.雨季中,杨树对0～30 cm土壤水分的利用比例增加,退化杨树增加幅度明显高于未退化杨树,对30～180 cm土壤水分的利用比例均减少.未退化杨树的液流速率大于退化杨树,不同天气中液流速率表现出相似的变化趋势,但未退化杨树液流的启动时间比退化杨树早.相关分析表明,未退化和退化杨树液流速率与土壤温度、风速、太阳辐射、相对湿度、空气温度均呈极显著的相关关系.退化杨树液流速率与土壤温度和空气相对湿度呈极显著负相关,与其他因素呈显著正相关,而未退化杨树仅与空气相对湿度呈极显著负相关,与其他因素均呈显著正相关关系,表明退化和未退化杨树蒸腾耗水易受环境条件的影响.退化杨树液流日累计量明显小于未退化杨树,表明其蒸腾耗水量较少;退化杨树水分来源浅,蒸腾耗水的减少并不能阻止林分退化.     

Nitrate signalling to stomata and growing leaves: interactions with soil drying, ABA, and xylem sap pH in maize

Increasing the nitrate (N) concentration in the rooting substrate above deficiency decreased stomatal conductance and leaf growth rate compared with sufficient N in maize seedlings (Zea mays L.) growing in drying substrate. Novel effects were detected when N in the non-deficient range was supplied directly to the xylem of detached shoots: concentrations above 2.0 mol m-3 KNO3 reduced transpiration, and concentrations above 12 mol m-3 KNO3 reduced leaf growth rate. Evidence is provided that the novel effects of N on transpiration and growth were mediated by pH-based ABA redistribution. ABA at 0.05 mol m-3, whilst ineffective alone, sensitized leaf growth to increases in KNO3 concentration (from 3.0 mol m-3), and the capacity of higher concentrations of ABA to reduce growth was enhanced by KNO3. Transpiration was sensitively reduced by KNO3, ABA, or buffers adjusted to pH 6.7-7.0 (compared with buffers adjusted to pH 5.0) alone. Nevertheless, a synergistic effect of KNO3 and either ABA or buffers adjusted to pH 6.7-7.0 was observed. Buffers of pH 5.6 supplied to detached shoots alleviated the depression of transpiration caused by 12 mol m-3 KNO3. Buffers adjusted to pH 6.7 increased the sensitivity of growth to KNO3. Xylem sap extracted from intact seedlings growing in drying soil exhibited an initial increase in N concentration, followed by a decrease at progressively lower soil water potentials. The importance for novel N signalling above deficiency is discussed with reference to the generality of fluctuations in soil and xylem N concentration within this range.     

Response of Olive and Almond Orchards to partial irrigation under dry-farming practices in semi-arid regions

Summary Some parameters pertaining to plant-soil water relations of almond trees under certain irrigation schemes were studied. Daily and seasonal fluctuations of transpiration rate, relative turgidity, osmotic concentration of leaf sap and number of foliage carried by trees were mainly investigated. Computed total water loss seem to be a function of the foliage amount carried by trees rather than the transpiration rate. Osmotic potential of leaf sap does not respond to changes in relative turgidity. Irrigation generally resulted in a partial shedding of leaves which indicates that irrigation under the prevailing conditions is a waste of water and labour.     

Transpiration of Pinus rotundata on a wooded peat bog in central Europe

Transpiration of a central European endemic tree species, Pinus rotundata Link, growing on a wooded peat bog in the Třeboň Basin, Czech Republic, was studied in 1999–2000. Transpiration was measured by sap flow techniques (heat field deformation method) on individual trees and scaled up to stand level. The radial patterns of sap flow density showed narrow peaks in the outer part of the xylem, sapwood accounted for 47–60% of the xylem radius and 72–84% of the xylem basal area. Adult trees tolerated well both short-term flooding during the growing season and drawdown of the water table to a depth of 60 cm below ground level. The maximum and mean daily transpiration rates were 3.0 and 1.8 mm per day, and were thus similar to published data for Scots pine. The seasonal total transpiration (25 April–20 October 2000, 180 days) amounted to 322 mm, or 62% of the potential evapotranspiration over this period. This canopy transpiration was compensated by 319 mm of precipitation. The difference between the accumulated precipitation and the accumulated transpiration (derived from seasonal sap flow measurements) closely mimicked the seasonal course of the water table.     

Branch transpiration of pine and spruce scaled to tree and canopy using needle biomass distributions

Branch water exchange and total tree water uptake were measured in a mixed Norway spruce and Scots pine stand in central Sweden during the 1995 and 1996 growing seasons. Branch transpiration was scaled to canopy level on the basis of a branch conductance model, using vertical needle-area distributions obtained by destructive sampling. Comparison with total tree water uptake scaled to canopy level showed agreement within 10%, for periods when the canopy was not affected by climatically induced stress. Comparison of scaled fluxes on individual trees showed that measurements of transpiration at branch level provide information on the direct response of transpiration to variations in weather, and furthermore that the time-lag between transpiration and tree water uptake was as much as 3 h. The vertical needle-area distribution of Scots pine was similar to that found by other authors. Needle-area distribution on Norway spruce, which has not been described before, showed that it has its largest needle area at the top of the crown. Specific needle area varied considerably both within trees and between trees. For spruce, mean specific needle area (±SD) varied from 2.4±0.5 mm² mg^–1 at the top of the crown to 7.1±1.9 mm² mg^–1 at the base. Corresponding figures for Scots pine were 3.4±2.0 and 9.1±2.1. Received: 5 March 1999 / Accepted: 17 March 2000     

Detection of xylem cavitation in field-grown pine trees using the acoustic emission technique

The relationship between the ultrasonic acoustic emission (AE) and the needle water potential in field-grown Japanese black pine,Pinus thunbergii, and excised-pine shoots was investigated in summer. The AE technique was employed as a reliable indicator of cavitation events in the water columns of xylem tracheids even under field conditions. In excised shoots. AE events detected when the needle water potential fell below about-0.9 MPa. In the case of field-grown pine trees, however, relatively few AE event were detected when needle water potential was lower than-0.9 MPa. This suggests that the occurrence of cavitation events in Japanese black pine growing under field conditions is comparatively rare, even in summer.     

Physiology of Pinus strobus L. Seedlings Grown under High or Low Soil Moisture Conditions

White pine seedlings (Pinus strobus L.) were grown under highor low soil-moisture levels. The increase in the length andin the fresh weight of seedlings, respiration, photosynthesis,transpiration, translocation of photosynthate from shoots toroots, and bio-electric potentials between the tip and the baseof a stem were measured throughout the growing season from Aprilto October 1964. At both moisture levels the lowest translocation of recent photosynthatefrom shoots to roots occurred during early summer, or at thetime when the rate of root growth was the lowest and that ofthe shoot the highest. The specific activity of ¹⁴CO₂, respiredby the shoots of such plants remained high throughout the 8h of the experiment, indicating a continuous utilization ofrecent photosynthate as a respiratory substrate. On the otherhand, early and late in the growing season, when translocationof recent photosynthate from shoots to roots and the rate ofroot growth were high, the specific activity of ¹⁴CO₂, respiredby the shoots rapidly decreased during the 8 h of the experiment,indicating a drop in the utilization of recent photosynthateas respiratory substrate. The highest positive values for thepotential difference between the top and the base of the mainshoot also occurred in early summer or during the period ofhigh rates of transpiration per needle stomatal surface area.     

Callusogenesis and somatic embryogenesis induction in hybrid embryos from the seeds of Pinus sibirica

The results of long-term work on the induction of somatic embryogenesis in Siberian pine (Pinus sibirica Du Tour) growing in a natural stand of trees and in clone grafting plantation located in the Western Sayan are shown. Controlled pollination of the clones of Siberian pine had a positive influence on the state of callus cultures. The cytological analysis of embryonal-suspensor mass made it possible to identify embryological structures morphologically close to zygotic embryos at early developmental stages; as a result, the callus tissue was recognized embryogenic. We revealed donor plants (clones), whose zygotic embryos in vitro can serve as a source of embryogenic callus tissue.     

The chemical composition of pine foliage in relation to the population dynamics of the pine beauty moth,Panolis flammea,in Scotland

Summary This paper reports part of a study to determine why damaging outbreaks of the pine beauty moth, Panolis flammea (D & S) (Lepidoptera: Noctuidae), in Scotland are frequent on lodgepole pine but do not occur on Scots pine, and why outbreaks on lodgepole pine are mainly confined to trees growing in deep unflushed peat. The elongation of shoots and the growth of needles of Scots pine occurred later in the season than did those of lodgepole pine. The foliage of Scots pine generally had a higher level of nitrogen, and consistently had a higher level of phosporus, but had a consistently lower level of tannins than that of lodgepole pine during the period when the larvae were feeding each year. The nitrogen content of the foliage of lodgepole pine growing in an iron pan soil was generally higher than that of lodgepole pine growing in deep peat during the same period but there were no general differences in the phosphorus or tannin contents of lodgepole pine in the 2 soil types. These findings suggest that Scots pine is a more suitable host plant than lodgepole pine and that the foliage of lodgepole pine growing in deep peat is not more suitable than lodgepole pine growing in an iron pan soil. On the basis of the chemical analyses used in this study, it is concluded that the abundance of pine beauty moth in Scotland is not strongly influenced by the nutritional suitability of its host plants.