Resolution of pheromone pulses in receptor cells of Antheraea polyphemus at different temperatures

The ability of pheromone receptor cells of male Antheraea polyphemus (Saturniidae) to resolve stimulus pulses was determined at different temperatures (8°, 18°, 28°C). The cells were stimulated by repeated 20-ms puffs of the pheromone components (E, Z)-6, 11-hexadecadienyl acetate and (E, Z)-6,11-hexadecadienal. At higher temperatures, higher frequencies of stimulus pulses were resolved by the nerve-impulse response: about 1.25 pulses per second at 8°C, 2.5 pulses/s at 18°C and 5 pulses/s at 28°C. The decreased ability of receptor cells to resolve stimulus pulses at low temperatures may reduce the male moth's chance of reaching the pheromone source. The peak nerve-impulse frequency increased whereas the duration of nerve-impulse responses to single stimulus pulses decreased at higher temperatures. At a given temperature and stimulus intensity the peak nerveimpulse frequency decreased with shorter intervals between the stimulus pulses, but the duration of the responses remained almost constant. The time needed for recovery from adaptation caused by a single stimulus pulse was longer at lower temperatures. The aldehyde receptor cell recovered more quickly than the acetate cell. At low stimulus concentration, the resolution ability of the acetate cell was strongly decreased, whereas in the aldehyde cell it was only slightly impaired.     

Repetitive stimulation of olfactory receptor cells in female silkmoths Bombyx mori L

The pheromone-sensitive receptor cells of male moth antennae are capable of detecting the rapid changes in stimulus intensity encountered in natural pheromone odour plumes. We investigated temporal response characteristics of the two receptor cell types of the sensillum trichodeum of female Bombyx mori, which are most sensitive to benzoic acid and 2,6-dimethyl-5-heptene-2-ol (DMH), respectively. The cells were repetitively stimulated with 50-ms pulses of benzoic acid and (±)-linalool, an effective mimic of DMH, at various pulse rates and different stimulus intensities. By recording receptor potentials and nerve impulses we demonstrated that both receptor cell types were able to follow stimulus pulses at least up to eight pulses per sec, with a more pronounced modulation of the responses in the DMH cell. The resolution capability of the two cell types showed little dependence on stimulus intensity. In their ability to resolve pulsed odour stimuli, the receptor cells for benzoic acid and DMH were as good as pheromone receptor cells.     

Central Mechanisms of Pheromone Information Processing

An advantage of using pheromones in olfactory studies is thatthey are chemical signals for which receptor neurons are evolvedand thus elicite biologically relevant odour-information tobe processed in the brain. In many vertebrate and insect species,the olfactory system is separated into a ‘main’and an ‘accessory’ division, the latter mediatingpheromone information. In moths, the pheromone information isfirst processed in the brain in a large and sexually dimorphicstructure, the macroglomerular complex (MGC) of the antennallobe (AL). Also in vertebrates the pheromone information isprocessed in specific or modified glomerular complexes. Oneprinciple question is whether individual olfactory glomeruliare functional units, processing specific information concerningboth the chemical quality and spatiotemporal features of thestimulus, like the pheromone plume. Indeed it has been shownthat the axons of different pheromone-selective receptor neuronsproject into different MGC-glomeruli. Intracellular recordingsfrom the AL projection (output) neurons also show that informationabout single components of the pheromone blend is preservedin some output pathways, whereas other output neurons respondin a unique fashion to the blend. The information about interspecificsignals, which interrupts pheromone attraction, is processedin a specific MGC-glomerulus and is to a large extent kept separatedfrom the pheromone information throughout the AL. Many of theoutput neurons accurately encode changes in the temporal characteristicsof the stimulus. Chem. Senses 21: 269–275, 1996.     

Temporal resolution of odour pulses by three types of pheromone receptor cells inAntheraea polyphemus

Summary Temporal response characteristics of three cell types of maleA. polyphemus, each responding to a different pheromone component, have been measured using series of short (20 ms) pheromone pulses. The stimuli were delivered through capillaries 20 m in diameter and applied to single olfactory sensilla trichodea. Two of three cell types sensitive to (E,Z)-6,11-hexadecadienal and (E,Z)-4,9-tetradecadienyl acetate are able to resolve at least 5 stimuli/s whereas the third, responding to the major pheromone component (E,Z)-6,11-hexadecadienyl acetate, is slower, resolving only about 2 stimuli/s. These results suggest that receptor cells are able to respond to pulses of pheromone concentration as they occur downwind from a point source. The time-averaged number of nerve impulses does not seem to be a reliable measure of the amount of pheromone reaching the sensillum. Responses of the cells thus reflect the non-uniform distribution of pheromone in a plume rather than the average concentration.     

Neurophysiological responses of pheromone-sensitive receptor neurons on the antenna of Trichoplusia ni (Hubner) to pulsed and continuous stimulation regimens

Both the frequency and the temporal pattern of action potentialproduction in an insect olfactory receptor neuron are stronglyaffected by odorant composition and the time course over whichstimulus concentration varies. To investigate the temporal characteristicsof the neurophysiological responses of these neurons, we deviseda stimulus delivery system that allows us to repeatedly presentwell-mixed, constant concentration odor pulses with relativelysharp onsets and offsets. Here we compare neurophysiologicalresponses to several different stimulation regimens, includingpulses of different durations and repetition rates. During stimulationwith high concentrations of pheromone, the temporal patternof neural activity from olfactory receptor neurons on the antennaof Trichoplusia ni (Hübner) is characterized by an initialphasic period (100–200 ms), followed by a tonic periodwhich is typically maintained for the remaining duration ofthe stimulus. Different olfactory receptor neurons appear tovary among themselves in the relative distribution between thephasic and tonic portions of the overall discharge. During stimulationregimens involving rapid repeated pulses of odorants, a portionof the phasic response levels is preserved during each pulse.Consequently, T. ni males probably detect much of the fluctuationin concentration of pheromone that may normally occur downwindfrom the site of pheromone release.     

The signaling role of extracellular ATP and its dependence on Ca2+ flux in elicitation of Salvia miltiorrhiza hairy root cultures

The application of a polysaccharide elicitor from yeast extract,YE, to Salvia miltiorrhiza hairy root cultures induced transientrelease of ATP from the roots to the medium, leading to a dose-dependentincrease in the extracellular ATP (eATP) level. The eATP levelrose to a peak (about 6.5 nM with 100 mg l^–1 YE) at about10 h after YE treatment, but dropped to the control level 6h later. The elicitor-induced ATP release was dependent on membraneCa²⁺ influx, and abolished by the Ca²⁺ chelator EGTA or thechannel blocker La³⁺. The YE-induced H₂O₂ production was stronglyinhibited by reactive blue (RB), a specific inhibitor of membranepurinoceptors. On the other hand, the application of exogenousATP at 10–100 µM to the cultures also induced rapidand dose-dependent increases in H₂O₂ production and medium pH,both of which were effectively blocked by RB and EGTA. The non-hydrolyzableATP analog ATPS was as effective as ATP, but the hydrolyzedderivatives ADP or AMP were not so effective in inducing thepH and H₂O₂ increases. Our results suggest that ATP releaseis an early event and that eATP plays a signaling role in theelicitation of plant cell responses; Ca²⁺ is required for activationof the elicitor-induced ATP release and the eATP signal transduction.This is the first report on ATP release induced by a fungalelicitor and its involvement in the elicitor-induced responsesin plant cells.     

The Site of Action of General Anaesthetics in Insect Olfactory Receptor Neurons

The effect of volatile anaesthetics such as N₂O, Xe, short-chainalkanes and cyclopropane, at pharmacologically relevant concentrations,on olfactory receptor neurons of insects was tested in electrophysiologicalrecordings. CO₂-receptor neurons in moths and files respondwith increased action potential activity, whereas in adherenceto the Meyer-Overton rule; alkanes of a chain length of 5 andabove are less effective or evoke suppression of action potentials.In olfactiory receptor neurons sensitive to benzoic acid infemale moths of Bombyx mori and in pheromone receptor neuronsof male moths of Antheraea polyphemus, anaesthetics are ineffectiveif applied alone; if superimposed on an excitatory olfactorystimulus, an inhibitory effect occurs, Local stimulation ofonly part of a sensory dendrite reveals that the anaestheticsreversibly block the reception of pheromone or its effect onthe conductance of the receptor cell memebrane. The observedinteractions are consistent with the hypothesis that the anaestheticsdo not interact with the primary transduction process, but ratheraffect a later stage such as the activation of ion channels. ^*Dedicated to H-J. Bestman, on the occasion of his 70th birthday.     

Responses of bombykol receptor cells to (Z,E)-4,6-hexadecadiene and linalool

Summary The bombykol analogue (Z,E)-4,6-hexadecadiene elicits nerve-impulse firing in the bombykol receptor cell of male moths ofBombyx mori. It is about 100 times less effective than bombykol if one compares equipotent loads of the odor sources. However, brief (1 s) hexadecadiene stimuli are followed by after-responses lasting for more than 10 min, much longer than those following bombykol stimuli yielding equal initial responses. The possibility is discussed that the unusual type of response to hexadecadiene is produced by a combination of long-lasting excitatory and shortlasting inhibitory effects on the receptor cell. Alternatively, hexadecadiene could be a weak activator which is converted on the antenna into a more potent compound. The after-responses can be reversibly inhibited by linalool stimuli. The electrophysiological effects observed led to the prediction that a single stimulus with (Z,E)-4,6-hexadecadiene followed by repetitive pulses of linalool should simulate a response to pulsed bombykol stimuli and elicit anemotactic behavior of maleBombyx mori.     

Frequency filter properties of lobster chemoreceptor cells determined with high-resolution stimulus measurement

1. We developed a high resolution, on-line stimulus measurement system for accurate control of chemical stimulus applications for Homarus americanus lateral antennule chemoreceptors. Focal stimulus presentations in an electrophysiological preparation with the receptor sensilla intact were measured at small spatial (30 μm) and time (5 ms) scales.
2. We tested 15 receptor cells with ten 100 ms pulses of 10⁴ M hydroxyproline at 0.5, 1, 2 and 4 Hz and with a single 8 s square pulse. Individual cells showed differences in their capabilities to resolve pulses (“flicker fusion”). At 2 Hz stimulation, some cells could follow stimulus pulses while others could not. At 4 Hz, 3 cells could still encode individual stimulus pulses accurately. The population resolved pulses up to 2 Hz; at 4 Hz, the population response to a pulse series approximated the response to a square pulse.
3. Repetitive stimulation caused a gradual decrease in the number of spikes and a gradual increase in first spike latency (“cumulative adaptation”). Increased stimulation frequency resulted in greater cumulative adaptation.
4. Since individual differences in adaptation and disadaptation rates of the receptor cells could not be attributed to measured stimulus variability in situ, lobster chemoreceptor cell populations have intrinsic temporal diversity which, we hypothesize, could be used to analyze pulsatile stimuli that occur in natural turbulent odor plumes.

     

Attractivity of pheromone surpassed by time-patterned application of two nonpheromone compounds

Strong support is given to the thesis that an unmodulated level of pheromone does not evoke orientation toward the source in male silkmoth Bombyx morieven if the concentration is high. The bombykol-related compound (Z,E)-4,6-hexadecadiene, which is known to elicit a firing of bombykol receptors that is maintained for many minutes after the removal of the stimulus, was used for the tests, together with linalool, which inhibits the response of the bombykol cells. Neither hexadecadiene nor linalool is known to release the typical behavior of orientation in these moths. The experiments, however, show that if the uniform firing after a hexadecadiene stimulus is modulated by a suitable sequence of linalool pulses, the males immediately display orientation behavior and approach the source even faster and more directed than with pulsed bombykol.     

家蚕胚胎细胞系BmE-SWU2的建立及其生物学特性研究

家蚕反转期胚胎组织经过一年多的原代培养,建立了BmE-SWU2细胞系。该细胞系细胞呈短梭形或圆形,细胞较小,属上皮型贴壁生长细胞系;细胞生长速度快,铺平率高于80%,繁殖力强,细胞群体倍增时间为51.8 h。BmE-SWU2细胞系的二倍体细胞（2n=56）比例达到89.76％,属二倍体细胞系,其染色体具有鳞翅目昆虫染色体的典型特征,中期染色体呈短杆状或颗粒状。BmE-SWU2细胞系对BmNPV高度敏感,TCID₅₀为1.581×10^-7。     

Changes in Outward K+ Currents in Response to Two Types of Sweeteners in Sweet Taste Transduction of Gerbil Taste Cells

Using the whole cell patch clamp technique, we measured changesin outward K⁺ currents of gerbil taste cells in response todifferent kinds of sweeteners. Outward K⁺ currents of the tastecell induced by depolarizing pulses were suppressed by sweetstimuli such as 10 mM Na-saccharin. The membrane-permeable analogof cAMP, cpt-cAMP, also decreased outward K⁺ currents. On theother hand, the K+ currents were enhanced by amino acid sweetenerssuch as 10 mM D-tryptophan. The outward K⁺ current was enhancedby external application of Ca²⁺-transporting ionophore, 5 µMionomycin, and intracellular application of 5 µM inositol-1,4,5-trisphosphate(IP₃). The outward K⁺ currents were no longer suppressed by10 mM Na-saccharin containing 20 µM gurmarin, but werestill enhanced by 10 mM D-tryptophan containing 20 µMgurmarin. These results suggest that sweet taste transductionfor one group of sweeteners such as Na-saccharin in gerbilsis concerned with an increase of the intracellular cAMP level,and that the transduction for the other group of sweetenerssuch as D-tryptophan is concerned with an increase of the intracellularIP₃ level which releases Ca²⁺ from the internal stores. Chem.Senses 22: 163–169, 1997.     

Mining SARS-CoV protease cleavage data using non-orthogonal decision trees: a novel method for decisive template selection

Motivation: Although the outbreak of the severe acute respiratorysyndrome (SARS) is currently over, it is expected that it willreturn to attack human beings. A critical challenge to scientistsfrom various disciplines worldwide is to study the specificityof cleavage activity of SARS-related coronavirus (SARS-CoV)and use the knowledge obtained from the study for effectiveinhibitor design to fight the disease. The most commonly usedinductive programming methods for knowledge discovery from dataassume that the elements of input patterns are orthogonal toeach other. Suppose a sub-sequence is denoted as P₂P₁P_1'P_2',the conventional inductive programming method may result ina rule like ‘if P₁ = Q, then the sub-sequence is cleaved,otherwise non-cleaved’. If the site P₁ is not orthogonalto the others (for instance, P₂, P_1' and P_2'), the predictionpower of these kind of rules may be limited. Therefore thisstudy is aimed at developing a novel method for constructingnon-orthogonal decision trees for mining protease data. Result: Eighteen sequences of coronavirus polyprotein were downloadedfrom NCBI (http://www.ncbi.nlm.nih.gov). Among these sequences,252 cleavage sites were experimentally determined. These sequenceswere scanned using a sliding window with size k to generateabout 50 000 k-mer sub-sequences (for short, k-mers). The valueof k varies from 4 to 12 with a gap of two. The bio-basis functionproposed by Thomson et al. is used to transform the k-mers toa high-dimensional numerical space on which an inductive programmingmethod is applied for the purpose of deriving a decision treefor decision-making. The process of this transform is referredto as a bio-mapping. The constructed decision trees select about10 out of 50 000 k-mers. This small set of selected k-mers isregarded as a set of decisive templates. By doing so, non-orthogonaldecision trees are constructed using the selected templatesand the prediction accuracy is significantly improved. Availability: The program for bio-mapping can be obtained byrequest to the author. Contact: z.r.yang{at}exeter.ac.uk     

A comparative study of pheromone perception in two species of Noctuid moths

The electrical activity of single olfactory receptor neurons in male soybean looper (SBL) Pseudoplusia includens(Walker) and cabbage looper (CL) Trihoplusia ni(Hübner) moths was evaluated in response to stimulation with fixed amounts of the individual components of their respective pheromone blends. In common with earlier observations in the CL, there are at least two classes of morphologically distinct pheromone sensitive sensilla on the antenna of male SBL, each of which contains two olfactory receptor neurons. In both species, one class of sensilla contains an olfactory receptor neuron sensitive to (Z)-7-dodecen-1-ol acetate (Z-7, 12:AC), the major component in each insect's blend, and a companion receptor neuron which is sensitive to (Z)-7-dodecen-1-ol (Z7,12: OH). In both species the second class of sensilla contains an olfactory receptor neuron which is sensitive to one of the minor components of the pheromone blend. (Z)-5-dodecen-1-ol acetate (Z-5,12:AC) is an effective stimulus in SBL, whereas (Z)-7-tetradecen-1-ol acetate (Z-7,14:AC) is an effective stimulus in CL. However, these two stimulatory compounds have been identified only in the female CL gland; neither has been found in the SBL gland. Thus, in contrast to the CL, which has receptor neurons which are responsive exclusively to conspecific pheromone components, the SBL has a class of receptor neurons which is responsive to a minor component of another species' pheromone blend. Field-trapping assays in which Z-5,12:AC is added to the SBL blend suggest that this single CL component is a powerful inhibitor of male SBL behavioral responses to conspecific pheromone blends. The difference observed in the specificity of the receptor neurons in this second class of sensilla are thus believed to play an integral role in the isolation processes that are maintained between these two species and may well account for the observed behavioral differences in their responses to heterospecific pheromone blends.     

A general odorant background affects the coding of pheromone stimulus intermittency in specialist olfactory receptor neurones

In nature the aerial trace of pheromone used by male moths to find a female appears as a train of discontinuous pulses separated by gaps among a complex odorant background constituted of plant volatiles. We investigated the effect of such background odor on behavior and coding of temporal parameters of pheromone pulse trains in the pheromone olfactory receptor neurons of Spodoptera littoralis. Effects of linalool background were tested by measuring walking behavior towards a source of pheromone. While velocity and orientation index did drop when linalool was turned on, both parameters recovered back to pre-background values after 40 s with linalool still present. Photo-ionization detector was used to characterize pulse delivery by our stimulator. The photo-ionization detector signal reached 71% of maximum amplitude at 50 ms pulses and followed the stimulus period at repetition rates up to 10 pulses/s. However, at high pulse rates the concentration of the odorant did not return to base level during inter-pulse intervals. Linalool decreased the intensity and shortened the response of receptor neurons to pulses. High contrast (>10 dB) in firing rate between pulses and inter-pulse intervals was observed for 1 and 4 pulses/s, both with and without background. Significantly more neurons followed the 4 pulses/s pattern when delivered over linalool; at the same time the information content was preserved almost to the control values. Rapid recovery of behavior shows that change of perceived intensity is more important than absolute stimulus intensity. While decreasing the response intensity, background odor preserved the temporal parameters of the specific signal.     

Ca2+-sensing receptor induces Rho kinase-mediated actin stress fiber assembly and altered cell morphology, but not in response to aromatic amino acids

The Ca²⁺-sensing receptor (CaR) is a pleiotropic, type III G protein-coupled receptor (GPCR) that associates functionally with the cytoskeletal protein filamin. To investigate the effect of CaR signaling on the cytoskeleton, human embryonic kidney (HEK)-293 cells stably transfected with CaR (CaR-HEK) were incubated with CaR agonists in serum-free medium for up to 3 h. Addition of the calcimimetic NPS R-467 or exposure to high extracellular Ca²⁺ or Mg²⁺ levels elicited actin stress fiber assembly and process retraction in otherwise stellate cells. These responses were ablated by cotreatment with the calcilytic NPS 89636 and were absent in vector-transfected HEK-293 cells. Cotreatment with the Rho kinase inhibitors Y-27632 and H1152 attenuated the CaR-induced morphological change but not intracellular Ca²⁺ (Ca_i²⁺) mobilization or ERK activation, although transfection with a dominant-negative RhoA-binding protein also inhibited calcimimetic-induced actin stress fiber assembly. CaR effects on morphology were unaffected by inhibition of G_q/11 or G_i/o signaling, epidermal growth factor receptor, or the metalloproteinases. In contrast, CaR-induced cytoskeletal changes were not induced by the aromatic amino acids, treatments that also failed to potentiate CaR-induced ERK activation despite inducing Ca_i²⁺ mobilization. Together, these data establish that CaR can elicit Rho-mediated changes in stress fiber assembly and cell morphology, which could contribute to the receptor's physiological actions. In addition, this study provides further evidence that aromatic amino acids elicit differential signaling from other CaR agonists. cytoskeleton; signaling     

Effects of hypoxic pulmonary vasoconstriction on pulmonary gas exchange

Brimioulle, Serge, Philippe Lejeune, and Robert Naeije.Effects of hypoxic pulmonary vasoconstriction on pulmonary gasexchange. J. Appl. Physiol. 81(4):1535-1543, 1996.Several reports have suggested that hypoxicpulmonary vasoconstriction (HPV) might result in deterioration ofpulmonary gas exchange in severe hypoxia. We therefore investigated theeffects of HPV on gas exchange in normal and diseased lungs. Weincorporated a biphasic HPV stimulus-response curve observed in intactdogs (S. Brimioulle, P. Lejeune, J. L. Vachièry, M. Delcroix, R. Hallemans, and R. Naeije, J. Appl.Physiol. 77: 476-480, 1994) into a 50-compartment lung model (J. B. West, Respir.Physiol. 7: 88-110, 1969) to control the amount ofblood flow directed to each lung compartment according to the localhypoxic stimulus. The resulting model accurately reproduced the bloodgas modifications caused by HPV changes in dogs with acute lung injury.In single lung units, HPV had a moderate protective effect on alveolaroxygenation, which was maximal at near-normal alveolarPO₂ (75-80 Torr), mixed venousPO₂ (35 Torr), andPO₂ at which hemoglobin is 50%saturated (24 Torr). In simulated diseased lungs associated with40-60 Torr arterial PO₂,however, HPV increased arterial PO₂ by 15-20 Torr. We conclude that HPV can improve arterialoxygenation substantially in respiratory failure.

     

A Quantitative Study of the Enhancing Effect of Nickel Ions on the Taste Response to Sodium Ions of Single Fibers of the Frog Glossopharyngeal Nerve: Competitive Inhibition by Calcium Ions of the Nickel-Enhanced Response to Sodium Ions

Single water fibers of the frog glossopharyngeal nerve respondto relatively high concentrations of NaCl (>80 mM). NiCl₂at 1 mM enhanced the Na⁺ response and reduced the thresholdconcentration for NaCl to 20 mM. CaCl₂ at 0.5–1 mM inducedan inhibition of the Ni²⁺-enhanced response to Na⁺ ions. A quantitativeexplanations for these results is provided by the hypothesisthat Ni²⁺ ions secondarily affect a sodium receptor or channel(designated X_Na^*) that is responsible for the Na⁺ response andthat Ca²⁺ ions inhibit the Ni²⁺-enhanced response to Na⁺ ionsby competing with Na⁺ ions for X_Na^*. Double-reciprocal plotsof the experimental data indicate that the affinity of X_Na^*for both Na⁺ ions (agonist) and Ca²⁺ ions (competitive antagonist)in the presence of 1 mM NiCl₂ was five times higher than thepreviously reported values obtained in the absence of NiCl₂(Kitada, 1991). Ni²⁺ ions at 1 mM enhanced the maximal responseto Na⁺ ions by 190%. It appears that a sodium receptor (or channel)interacts with a Ni²⁺-binding element that is affected by Ni²⁺ions and, thus, Ni²⁺ ions can induce both an increase in theaffinity of the sodium receptor for the respective cations andan enhancement of the Na⁺ response. Chem Senses 21: 65–73,1996.     

Comparison of Palaeobotanical Observations with Experimental Data on the Leaf Anatomy of Durmast Oak [Quercus petraea(Fagaceae)] in Response to Environmental Change

To test whether stomatal density measurements on oak leaf remainsare reliable tools for assessing palaeoatmospheric carbon dioxideconcentration [CO₂], under changing Late Miocene palaeoenvironmentalconditions, young seedings of oak (Quercus petraea,Liebl.) weregrown at elevatedvs.ambient atmospheric [CO₂] and at high humiditycombined with an increased air temperature. The leaf anatomyof the young oaks was compared with that of fossil leaves ofthe same species. In the experiments, stomatal density and stomatalindex were significantly decreased at elevated [CO₂] in comparisonto ambient [CO₂]. Elevated [CO₂] induced leaf cell expansionand reduced the intercellular air space by 35%. Leaf cell sizeor length were also stimulated at high air humidity and temperature.Regardless of a temperate or subtropical palaeoclimate, leafcell size in fossil oak was not enhanced, since neither epidermalcell density nor length of the stomatal apparatus changed. Theabsence of these effects may be attributed to the phenologicalresponse of trees to climatic changes that balanced temporalchanges in environmental variables to maintain leaf growth underoptimal and stable conditions.Quercus petraea,which evolvedunder recurring depletions in the palaeoatmospheric [CO₂], maypossess sufficient phenotypic plasticity to alter stomatal frequencyin hypostomatous leaves allowing high maximum stomatal conductanceand high assimilation rates during these phases of low [CO₂].Copyright1998 Annals of Botany Company Atmospheric CO₂, high humidity, elevated temperature,Quercus petraea,durmast oak, Late Miocene, palaeoclimates, leaf anatomy, stomatal density, stomatal index