Electrical effects of potassium and bicarbonate on proximal tubule cells ofNecturus

Summary The effects of stepwise concentration changes of K⁺ and HCO ₃ ^– in the basolateral solution on the basolateral membrane potential (V _bl) of proximal tubule cells of the doubly-perfusedNecturus kidney were examined using conventional microelectrodes. Apparent transference numbers were calculated from changes inV _bl after alterations in external K⁺ concentration from 1.0 to 2.5mm (t _{K, 1.0–2.5}), 2.5 to 10, and in external HCO ₃ ^– concentration (at constant pH) from 5 to 10mm (t _{HCO3, 5–10}), 10 to 20, or 10 to 50.t _{K, 2.5–10} was 0.38±0.02 under control conditions but was sharply reduced to 0.08±0.03 (P>0.001) by 4mm Ba⁺⁺. This concentration of Ba⁺⁺ reducedV _bl by 9±1 mV (at 2.5 external K⁺). Perfusion with SITS (5×10^–4 m) for 1 hr hyperpolarizedV _bl by 10±3 mV and increasedt _{K, 2.5–10} significantly to 0.52±0.01 (P<0.001). Ba⁺⁺ application in the presence of SITS depolarizedV _bl by 22±3 mV. In control conditionst _{HCO3, 10–50} was 0.63±0.05 and was increased to 0.89±0.07 (P<0.01) by Ba⁺⁺ but was decreased to 0.14±0.02 (P<0.001) by SITS. In the absence of apical and basolateral chloride, the response ofV _bl to bicarbonate was diminished but still present (t _{HCO3, 10–20} was 0.35±0.03). Intracellular pH, measured with liquid ion-exchange microelectrodes, increased from 7.42±0.19 to 7.57±0.17 (P<0.02) when basolateral bicarbonate was increased from 10 to 20mm at constant pH. These data show that the effects of bicarbonate onV _bl are largely independent of effects on the K⁺ conductance and that there is a significant current-carrying bicarbonate pathway in the basolateral membrane. Hence, both K⁺ and HCO ₃ ^– gradients are important in the generation ofV _bl, and their relative effects vary reciprocally.     

Intra-population genetic diversity of two wheatgrass species along altitude gradients on the Qinghai-Tibetan Plateau: its implication for conservation and utilization

A fluorescence-based AFLP fingerprinting was applied to investigate genetic diversity in 22 natural populations of two wheatgrasses from Qinghai-Tibetan Plateau at different altitudes: the hexaploid Elymus nutans Griseb and the tetraploid E. burchan-buddae (Nevski) Tzvelev (Poaceae). Five selective primer combinations used in this study generated a total of 637 AFLP fragments across all the samples, with 612 fragments in E. nutans and 570 in E. burchan-buddae. About 45% of the scored fragments were <200 bp and about 13% of the fragments were >400 bp. Results showed that genetic diversity within populations of the two Elymus species increased gradually with the increase in altitudes from the lowest sampling sites (2800 m) and reached a plateau at the medium altitudes, and then started to decrease with the increase in altitudes. Regression analysis demonstrated a clear pattern between the expected heterozygosity (H _e) or Shannon index (I) and altitude variation, where the highest H _e values (0.3449 for E. nutans and 0.3167 E. burchan-buddae) and I values (0.5123 and 0.4759) were expected at the altitudes 3399 m and 3418 m across all sampling sites, respectively for E. nutans and E. burchan-buddae. In other words, higher genetic diversity was observed in populations occurring at the medium altitudes (3200–3600 m) than those at the low and high altitudes for the two Elymus species. Principal coordinate analysis (PCA) did not show clear association between genetic relationships of populations and their occurrences at a particular altitude. The above results suggest that efforts for conservation and utilization of two wheatgrasses species should focus more on populations occurring at the medium altitudes.     

Aerobic capacity of Peruvian Quechua: A test of the developmental adaptation hypothesis

High altitude natives are reported to have outstanding work capacity in spite of the challenge of oxygen transport and delivery in hypoxia. To evaluate the developmental effect of lifelong exposure to hypoxia on aerobic capacity, VO_2peak was measured on two groups of Peruvian Quechua subjects (18–35 years), who differed in their developmental exposure to altitude. Male and female volunteers were recruited in Lima, Peru (150 m), and were divided in two groups, based on their developmental exposure to hypoxia, those: a) Born at sea‐level individuals (BSL), with no developmental exposure to hypoxia (n = 34) and b) Born at high‐altitude individuals (BHA) with full developmental exposure to hypoxia (n = 32), but who migrated to sea‐level as adults (>16‐years‐old). Tests were conducted both in normoxia (BP = 750 mm Hg) and normobaric hypoxia at sea‐level (BP = 750 mm Hg, FiO₂ = 0.12, equivalent to 4,449 m), after a 2‐month training period (in order to control for initial differences in physical fitness) at sea‐level. BHA had a significantly higher VO_2peak at hypoxia (40.31 ± 1.0 ml/min/kg) as compared to BSL (35.78 ± 0.96 ml/min/kg, P = 0.001), adjusting for sex. The decrease of VO_2peak at HA relative to SL (ΔVO_2peak) was not different between groups, controlling for baseline levels (VO_2peak at sea‐level) and sex (BHA = 0.35 ± 0.04 l/min, BSL = 0.44 ± 0.04 l/min; P = 0.12). Forced vital capacity (controlling for height) and the residuals of VO_2peak (controlling for weight) had a significant association in the BHA group only (r = 0.155; P = 0.031). In sum, results indicate that developmental exposure to altitude constitutes an important factor to determine superior exercise performance. Am J Phys Anthropol 156:363–373, 2015. © 2014 Wiley Periodicals, Inc.     

Effects of branch position on water relations and gas exchange of European larch trees in an alpine community

Water relations and gas exchange were studied in the crowns of small European larch (Larix decidua Mill.) trees with respect to branch position. The upper-crown branches showed significantly higher branch sap flux rate (F _la) and branch conductance (g _b) compared to the lower crown (P<0.001). Values of leaf conductance (g _l), transpiration rate (E) and net photosynthesis (A), averaged for different ranges of atmospheric vapour pressure deficit (VPD), were also higher in the upper crown position. We suppose that the up to 2.6-fold smaller soil-to-leaf hydraulic conductance observed in the lower branches (P<0.001, compared to upper branches) could contribute to the decreased values of F _la, g _b, g _l, and E in the lower crown position. Variation in tracheid lumen diameter with respect to crown position (P<0.001) supported the hypothesis that branches growing at the crown base are hydraulically more constrained than branches located at the top of the tree. Leaf area to sapwood area ratio (A _la/A _sa) exhibited 1.4 times smaller values in lower crown (P<0.01), however, this could not compensate the effect of decreased hydraulic conductivity of the lower-crown branches.     

Metabolic and ventilatory responses to hypoxia in two altitudinal populations of the toad, Bufo bankorensis

Effects of hypoxia on resting oxygen consumption ( ), lung ventilation, and heart rate at different ambient P_O2 were compared between lowland and high altitude populations of the toad, Bufo bankorensis. Resting decreased significantly in mild hypoxia (P_O2=120 mm Hg) at 10°C and in moderate hypoxia (P_O2=80 mm Hg) at 25°C in both altitudinal populations; however, resting did not differ significantly between the two populations. Numbers of lung ventilation periods (VP) and total inspired volume (V_L) did not change with P_O2 at 10°C, but did increase at moderate and severe hypoxia (40 mm Hg), respectively, at 25°C. Resting heart rates did not change during hypoxia and did not differ between altitude populations. The results suggest (1) the effect of P_O2 change on should be considered in future studies involving transfer of anurans to a different altitude; and (2) the metabolic and ventilatory physiology in B. bankorensis does not compensate for the low temperature and P_O2 at high altitude.     

Hematology and blood microelements of sheep in south Bohemia

The efficiency of sheep is dependent on their health and well-being. The blood markers can be critical for improving of the physiological, nutritional and pathological status of sheep organism. The aim of this study was to test the hypotheses that the red and white blood cells and copper (Cu) and zinc (Zn) plasma contents are impacted by altitude and season. The ewes were kept at three farms. Blood samples were divided according to factors of altitude (550 m, 800 m, 950 m above sea level), season (spring, fall) and year. The lowest haemoglobin concentration and value of haematocrit were detected at the altitude of 550 m (66.95 g L⁻¹, 0.36 L L⁻¹) and the highest at the altitude of 950 m (117.96 g L⁻¹, 0.39 L L⁻¹) (P < 0.001). Spring values of haemoglobin and haematocrit were lower than fall values. The highest count of leucocytes was recorded at the altitude 950 m (9.57 G L⁻¹), higher counts were contained in spring (P < 0.001). The lowest percentage of eosinophiles was found at the altitude of 800 m (5.81%) and the highest at the altitude of 550 m (9.26%) (P < 0.01). Phagocytose activities were the highest at the altitude of 950 m (95.07%) and the lowest at the altitude of 550 m (85.04%) (P < 0.001). Phagocytose activities were higher in fall than in spring. The highest Cu concentration was found at the altitude of 550 m and the lowest at the altitude of 800 m (17.04 μmol L⁻¹ vs. 14.37 μmol L⁻¹). Zn levels were higher at altitudes of 950 m and 800 m than at the altitude of 550 m (17.81 μmol L⁻¹, 17.00 μmol L⁻¹ vs. 14.77 μmol L⁻¹). We concluded that hematological markers and trace mineral content in grazed sheep may be impacted by altitude and season.     

A comparative analysis of photosynthetic characteristics of hulless barley at two altitudes on the Tibetan Plateau

To determine the photosynthetic characteristics of C₃ plants and their sensitivity to CO₂ at different altitudes on the Tibetan Plateau, hulless barley (Hordeum vulgare L. ssp. vulgare) was grown at altitudes of 4,333 m and 3,688 m. Using gas-exchange measurements, photosynthetic parameters were simulated, including the maximum net photosynthesis (P _max) and the apparent quantum efficiency (α). Plants growing at higher altitude had higher net photosynthetic rates (P _N), photosynthesis parameters (P _max and α) and sensitivities to CO₂ enhancement than plants growing at lower altitude on the Tibetan Plateau. The enhancements of P _N, P _max, and α for plants growing at higher altitude, corresponding with 10 μmol(CO₂) mol⁻¹ increments, were approximately 0.20∼0.45%, 0.05∼0.20% and 0.12∼0.36% greater, respectively, than for plants growing at lower altitude, respectively, where CO₂ levels rose from 10 to 170 μmol(CO₂) mol⁻¹. Therefore, on the Tibetan Plateau, the changes in the photosynthetic capacities and the photosynthetic sensitivities to CO₂ observed in the C₃ plants grown above 3,688 m are likely to increase with altitude despite the decreasing CO₂ partial pressure.     

Energy cost and energy sources in karate

Energy costs and energy sources in karate (wado style) were studied in eight male practitioners (age 23.8 years, mass. 72.3 kg, maximal oxygen consumption (VO_2max) 36.8 ml · min^–1 · kg^–1) performing six katas (formal, organized movement sequences) of increasing duration (from approximately. 10 s to approximately 80 s). Oxygen consumption (VO₂) was determined during pre-exercise rest, the exercise period and the first 270 s of recovery in five consecutive expired gas collections. A blood sample for lactate (la^–) analysis was taken 5 min after the end of exercise. The overall amount of O₂ consumed during the exercise and in the following recovery increased linearly with the duration of exercise (t) from approximately 1.51 (for t equal to 10.5 s (SD 1.6)) to approximately 5.81, for t equal to 81.5 s (SD 1.0). The energy release from la^– production (VO_21a ^–) calculated assuming that an increase of 1 mmol · l^–1 la^– corresponded to a VO₂ of 3 mlO₂ · kg^–1 was negligible for t equal to or less than 20 s and increased to 17.3 ml · kg^–1 (la^– = 5.8 mmol · l^–1 above resting values) for t equal approximately to 80 s. The overall energy requirement (VO_2eq) as given by the sum of VO₂ and VO_2la ^– was described by VO_2eq = 0.87 + 0.071 · t (n = 64; r ² = 0.91), where VO_2eq is in litres and t in seconds. This equation shows that the metabolic power (VO_2eq · t ^–1) for this karate style is very high: from approximately 9.51 · min^–1 for t equal to 10 s to approximately 4.91 · min^–1 for t equal to 80 s, i.e. from 3.5 to 1.8 times the subjects' VO_2max. The fraction of VO_2eq derived from the amount of O₂ consumed during the exercise increased from 11% for t equal to 10 s to 41 % for t equal to 80 s whereas VO_21a ^– was negligible far t equal to or less than 20 s and increased to 13 % o for t equal to 80 s. The remaining fraction (from 90% for t equal to 10 s to 46% for t equal to 80 s), corresponding to the amount of O₂ consumed in the recovery after exercise, is derived from anaerobic alactic sources, i.e. from net splitting of high energy phosphates during the exercise.     

Differences in the Activation State of Ribulose-1,5-bisphosphate Carboxylase/Oxygenase in Barley,Pea, and Wheat at Two Altitudes

Activation state of ribulose-1,5-bisphosphate carboxylase/oxygenase (RuBPCO) is an important parameter determining the rate of net photosynthesis (P _N) in situ for which no information is available with reference to altitude. We analyzed activation state along with P _N in three plant species and their cultivars grown at low (LA, 1 300 m) and high (HA, 4 200 m) altitudes. No significant change in P _N and the initial activity of RuBPCO was obtained with reference to altitude. However, activation state of RuBPCO was reduced significantly in the HA plants as compared to the LA ones. Hence low partial pressure of CO₂ prevailing at HA might be responsible for the lower activation state of RuBPCO.     

High altitude tissue adaptation in Andean coots: capillarity,fibre area,fibre type and enzymatic activities of skeletal muscle

Capillarity, fibre types, fibre area and enzyme activities of different skeletal muscles (pectoralis, extensor digitorum longus), tibialis anterior, plantaris and the myocardium were compared in Andean coot (Fulica americana peruviana) native to high altitude (Junín, Perú, 4200 m) and the same species nesting at sea level. Numbers of capillaries per square millimeter were higher in all high-altitude muscles when compared with sea-level muscles (P<0.0001). Moreover, values for capillaries per fibre and capillaries in contact with each fibre were higher in digitorum and tibialis high-altitude muscles. Muscle fibres were classified as Type I, Type IIA or Type IIB on the basis of their myofibrillar ATPase pH lability. Pectoralis muscle of high-altitude and sea-level coots presented only fibres of Type IIA. In contrast, all the leg muscles studied showed a mosaic pattern of the three fibre types. Fibre areas were determined using a Leitz Texture Analysis System. Significant differences in fibre area were observed (P<0.01) between high-altitude and sea-level muscles. Mean muscle fibre diameters were also lower in the high-altitude group than in the sea-level group. The enzyme activities studied were hexokinase, lactate dehydrogenase, citrate synthase and 3-hydroxyacyl-CoA-dehydrogenase. The oxidative capacity, as reflected by citrate synthetase and hydroxyacyl-CoA-dehydrogenase activities, was greater for myocardial and pectoralis than for leg muscles. However, analysis of maximal enzyme activities showed that there were no significant differences between the glycolytic and oxidative enzyme activities of high-altitude and sea-level coots. These results suggest that in Andean coots genetically adapted to high altitude, changes in muscle capillarity and fibre size, in addition to high haemoglobin O₂ affinity and low haemoglobin concentration, are sufficient to allow adequate energy production without increases in enzymatic activities.Abbreviations BSA bovine serum albumin - C:F ratio Capillaries per fibre - CAF Capillaries in contact with each fibre - CD capillary density (mm^-2) - CS citrate synthetase - EDL muscularis digitorum longus - fra fraction reduction area - HA high altitude - HAD hydroxyacyl-CoA-dehydrogenase - HK hexokinase - LDH lactate dehydrogenase - P ₅₀ PO₂ at which hemoglobin is half saturated with O₂ - P _aO₂ arterial partial pressure of oxygen - PAS periodic acid-schiff - PEC muscularis pectoralis - PLA muscularis planaris - P _tO₂ mean tissue oxygen pressure - P _vO₂ mixed venous partial pressure of oxygen - SD standard deviation - SL sea level - TA muscularis tibialis anterior - TAS texture analysis system     

武夷山不同海拔黄山松细根性状季节变化

细根作为植物吸收养分和水分的主要器官,其功能性状对森林生态系统功能具有重要影响。以武夷山黄山松为研究对象,通过对不同季节(春季、夏季、秋季和冬季)和不同海拔(1200、1400、1600、1800 m和2000 m)的黄山松细根的功能性状的测定,分析其细根性状特征随海拔和季节变化的规律。结果表明:(1)黄山松细根比根长(SRL),比根面积(SRA)均随海拔先升高后降低,其均值分别为(9.32±0.35) cm/g与(276.41±68.10) cm~2/g;根组织密度(RTD)随海拔先降低后升高,均值为(0.16±0.05) g/cm~3。根平均直径(AvgDiam)随海拔增加变化不显著,均值为(0.097±0.004) mm。SRL和SRA在海拔1600 m处达到最大,而RTD和AvgDiam的最大值出现在海拔1800 m或2000 m处。(2)SRL和SRA在夏季或秋季达到最大,RTD和AvgDiam最大值则出现在冬季或春季。季节和海拔对各细根性状都有显著影响(P0.01),但季节与海拔对根性状并没有产生显著的交互作用(P0.05)。(3)SRL与SRA间的异速生长指数是1.25,显著大于1.0(P0.01);SRL与RTD存在负等速生长关系,而与AvgDiam存在显著负异速生长关系(P0.01);SRA与RTD,以及RTD与AvgDiam间均存在显著负异速生长关系(P0.01),但SRA与AvgDiam之间不存在异速生长关系。黄山松的细根性状在1600 m处倾向于增加比根长和比根面积,而在海拔1800 m或2000 m处则倾向于增加组织密度与根直径,这与黄山松细根性状从夏秋到冬春的季节变化规律相类似。同时,相对于比根面积来说,黄山松的细根在海拔1600 m处和夏秋季节更倾向于投资比根长来增加养分的吸收。     

Photosynthetic characteristics of <Emphasis Type="Italic">Hordeum,Triticum, Rumex</Emphasis>, and <Emphasis Type="Italic">Trifolium</Emphasis> species at contrasting altitudes

Photosynthetic characteristics were compared between plants of low altitude (LA) grown at LA (Palampur; 1 300 m) and at high altitude, HA (Kibber; 4 200 m), and plants naturally occurring at different altitudes (Palampur, 1 300 m; Palchan, 2 250 m; and Marhi, 3 250 m). Net photosynthetic rate (P _N) was not significantly different between altitudes. However, the slopes of the curve relating P _N to intercellular CO₂ concentration (C _i) were higher in plants at Palchan, Marhi, and Kibber compared to those at Palampur, indicating that plants had higher efficiency of carbon uptake (the initial slope of P _N/C _i curve is an indication) at HA. They had also higher stomatal conductance (g _s), transpiration rate, and lower water use efficiency at HA. g _s was insensitive to photosynthetic photon flux density (PPFD) for plants naturally occurring at Palampur, Palchan, and Marhi, whereas plants from LA grown at Palampur and Kibber responded linearly to increasing PPFD. Insensitivity of g _s to PPFD could be one of the adaptive features allowing wider altitudinal distribution of the plants.This research is supported by the Department of Biotechnology (DBT), Government of India vide grant number BT/PR/502/AGR/08/39/966-VI.     

Does the threshold of transcutaneous partial pressure of carbon dioxide represent the respiratory compensation point or anaerobic threshold?

On reaching the respiratory compensation point (RCP) during rapidly increasing incremental exercise, the ratio of minute ventilation (V_E) to CO₂ output (VCO₂) rises, which coincides with changes of arterial partial pressure of carbon dioxide (P _aCO₂). Since P _aCO₂ changes can be monitored by transcutaneous partial pressure of carbon dioxide (PCO_2,tc) RCP may be estimated by PCO_2,tc measurement. Few available studies, however, have dealt with comparisons between PCO_2,tc threshold (T _AT) and lactic, ventilatory or gas exchange threshold (V _AT), and the results have been conflicting. This study was designed to examine whether this threshold represents RCP rather than V _AT. A group of 11 male athletes performed incremental excercise (25 W · min^–1) on a cycle ergometer. The PCO_2,tc at (44°C) was continuously measured. Gas exchange was computed breath-by-breath, and hyperaemized capillary blood for lactate concentration ([la^–]_b) and P _aCO₂ measurements was sampled each 2 min. The T _AT was determined at the deflection point of PCO_2,tc curve where PCO_2,tc began to decrease continuously. The V _AT and RCP were evaluated with VCO₂ compared with oxygen uptake (VO₂) and V_E compared with the VCO₂ method, respectively. The PCO_2,tc correlated with P _aCO₂ and end-tidal PCO₂. At T _AT, power output [P, 294 (SD 40) W], VO₂ [4.18 (SD 0.57)l · min^–1] and [la^–] [4.40 (SD 0.64) mmol · l^–1] were significantly higher than those at V _AT[P 242 (SD 26) W, VO₂ 3.56 (SD 0.53) l · min^–1 and [la^–]_b 3.52 (SD 0.75), mmol · l^–1 respectively], but close to those at RCP [P 289 (SD 37) W; VO₂ 3.97 (SD 0.43) l · min^– and [la^–]_b 4.19 (SD 0.62) mmol · l^–1, respectively]. Accordingly, linear correlation and regression analyses showed that P, VO₂ and [la^–]_b at T _AT were closer to those at RCP than at V _AT. In conclusion, the T _AT reflected the RCP rather than V _AT during rapidly increasing incremental exercise.     

Ventilatory responses to temperature variation in the fresh water turtle,Mauremys caspica leprosa

A study of lung gas exchange in the fresh water turtle Mauremys caspica leprosa at normal physiological body temperatures (15, 25 and 35 °C) was extended to extreme temperatures (5 and 40 °C) to determine whether the direct relationship between body temperature and ventilatory response found in many lung-breathing ectotherms including other chelonian species was maintained. From 5 to 35 °C the lung ventilation per unit of O₂ uptake and CO₂ removed declined with temperature. Consequently, lung CO₂ partial pressure increased with temperature. Its value was maintained within narrow limits at each thermal constant, suggesting a suitable control throughout the complete ventilatory cycle. At 40 °C the ventilatory response showed the opposite trend. The ratios of ventilation to lung gas exchange increased compared to their values at 35 °C. The impact of this increased breathing-lowering the estimated mean alveolar CO₂ partial pressure-was nevertheless less than expected due to an increase in calculated physiological dead space. This suggests that the relative hyperventilation in response to hyperthermia found in Mauremys caspica leprosa is related to evaporative heat loss.Abbreviations BTPS body temperature, ambient pressure, saturated with water vapour - CTM critical thermal maximum - F_N2 fractional concentration of nitrogen - PA _CO2or PL _CO2 alveolar or lung CO₂ pressure - PA_O2or PL_O2 alveolar or lung O₂ pressure - PI_O2 inspired O₂ pressure - R respiratory exchange ratio - STPD standard temperature, standard pressure, dry - T _a ambient temperature - T _b body temperature - VA alveolar ventilation - VA/VCO₂ relative alveolar ventilation (alveolar ventilation per unit of CO₂ removed) - VO₂ O₂ uptake - VCO₂ CO₂ output - V _D anatomical dead space volume - V _D physiological dead space volume - VE/VO₂ ventilatory equivalent for O₂ - VE pulmonary ventilation or expiratory minute volume - VE/VCO₂ ventilatory equivalent for CO₂ - V _T tidal volume     

Antioxidant System Differential Regulation is Involved in Coffee Ripening Time at Different Altitudes

Fruit ripening can be seen as an oxidative phenomenon that, depending on its intensity, may directly influence fruit quality. At relatively higher altitudes, coffee fruit ripening takes place through an extended period of time, which positively affects coffee quality. However, little is known about the oxidative processes and antioxidant metabolism of coffee fruits grown at these altitudes. Thus, this study aimed to characterise coffee fruit development from trees grown at two contrasting altitudes (965 m and 1310 m) through phenological analysis and antioxidant metabolism evaluation (Hydrogen peroxide (H₂O₂) and malondialdehyde (MDA) contents; superoxide dismutase (SOD), catalase (CAT), and ascorbate peroxidase (APX) activity and gene expression). Phenological analysis showed that altitude extended coffee reproductive cycle by a month and promoted a higher ripening uniformity, with 100% of fruits at the ideal ripening stage for harvest (cherry stage) in the last evaluation time. H₂O₂ and malondialdehyde contents revealed that in both altitudes fruits went through oxidative damage, though in an early manner at the lower altitude. Although gene expression and enzyme activity did not well correlate, the delay in the oxidative damage in fruits of the higher altitude was probably a result of an increased efficiency in H₂O₂ neutralisation due to the higher activity levels of the APX and CAT enzymes, mainly in green fruits. Thus, a better removal of reactive oxygen species in coffee fruits from plants grown at higher altitudes is involved in the extension of the coffee reproductive cycle, contributing to the production of a higher cup quality coffee.     

Comparison of pulmonary vascular response to endogenous nitric oxide inhibition in sheep and pigs living at 2,300 m

To compare the role of nitric oxide in an adaptive process to chronic hypoxia, we examined the effects of endogenous nitric oxide synthase inhibition on pulmonary vascular tone in conscious sheep and pigs living at high altitude. Unanesthetized male sheep (n=6) and pigs (n=5), born and residing in the highlands of Qinghai Province, China (2,300–3,000 m a.s.l.) were studied at that altitude. Pulmonary artery pressure (P_pa), pulmonary artery wedge pressure (P_cwp), and cardiac output (CO) were measured. Pulmonary vascular resistance (PVR) was calculated as (P_pa—P_cwp)/CO. Using a climatic chamber, hemodynamic measurements during exposures to atmospheric pressures corresponding to altitudes of 0, 2,300, and 4,500 m a.s.l. were performed with and without NO inhibition, using N^w-nitro-l-argine (NLA; 20 mg kg^–1), a potent stereospecific competitive inhibitor of nitric oxide synthase. P_pa and PVR at baseline (2,300 m) and during hypoxic exposure (4,500 m) were significantly higher in pigs than in sheep. After NLA administration, P_pa increased and CO decreased in both animals, resulting in significantly increased PVR at baseline and during hypoxic exposure. However, there were no significant differences in the percent increase in basal or hypoxic PVR after NLA administration between sheep and pigs. We conclude that augmented endogenous NO production could contribute to the regulation of pulmonary vascular tone at high altitude in sheep and pigs. However, it is unlikely that NO is responsible for the different pulmonary vascular tones between sheep and pigs at basal condition at moderately high altitude.Communicated by G. Heldmaier     

Carabid life-cycle strategies and climate change: a study on an altitude transect

Abstract.

• 1 There was little overlap in the species composition of carabid beetle assemblages sampled below 450 m and above 800 m on an altitude transect and the first axis of a DECORANA ordination was closely correlated with altitude (r₁₁= 0.93, P < 0.001), probably reflecting the differing temperature requirements of different species.
• 2 Life-cycle strategies of two low-altitude species, found predominantly below 600 m, and two species caught above 600 m a.s.l., have been determined, using mandible wear to identify whether the females breed in the calendar year that they emerge as adults or in the year following.
• 3 Nebria salina has an annual cycle at 630 m. Pterostichus madidus and Calathus fuscipes were both biennial at altitudes above 300 m although predominantly annual at low altitude. N.gyllenhali was biennial above 600 m and it is not known whether it is able to switch to an annual cycle at low altitude.
• 4 Both N.salina and N.gyllenhali ceased activity soon after emergence, an adaptation which preserves their mandibles from wear.
• 5 At altitudes of 305 m and 430 m, P.madidus and C.fuscipes entered the breeding season with 33% and 56% reduction in mandible tip length, possibly reducing their reproductive output.
• 6 The necessity for relatively sharp mandibles on entry into the breeding season may restrict the capacity of carabids to respond to a temperature change by switching from annual to biennial cycles, and vice versa, adding support to the suggestion that carabids are more likely to respond to climate change by shifting distributions than by physiological adaptation.

     

长白山不同海拔白桦幼苗移栽至同一生境的光合及反射光谱特性

环境是影响植物生理性状的主要因素之一,通过改变植物的生长环境来研究植物生理性状的改变是目前研究植物生理生态的热点,而高海拔地区多样的环境为研究物种适应环境变化提供了良好的实验条件。本研究通过移栽的技术手段,将分布在海拔750 m、海拔1200 m和海拔1400 m的3~5年生白桦幼苗移植到海拔750 m相同的林下环境条件下,将3种白桦移栽幼苗和野生白桦幼苗的光响应参数、光谱反射率以及光谱反射指数进行对比研究,分析移栽初期和移栽一年后植物生理性状的异同,探索白桦幼苗迁入新环境的适应性。研究结果表明:移栽初期,通过对比不同海拔来源的白桦移栽幼苗彼此之间各项生理性状以及与原海拔野生白桦幼苗的生理性状发现,包括最大净光合速率(A_(max))、气孔导度(G_s)、胞间CO_2浓度(C_i)在内的生理性状差异显著(P0.05),幼苗光谱反射指数差异性显著(P0.05)。经过一年的适应,不同海拔来源的白桦幼苗与移栽地海拔750 m野生白桦幼苗的生理性状之间差异不显著(P0.05),幼苗光谱反射指数差异性不显著(P0.05),而与原海拔野生幼苗生理性状之间差异显著(P0.05),幼苗光谱反射指数差异显著(P0.05)。在移栽初期,移栽幼苗的各项生理指标已经因环境的改变而发生变化,但仍保留原海拔野生幼苗的生理特性;移栽一年后,移栽幼苗逐渐适应环境,其相关生理性状发生改变,并趋同于移栽地野生白桦幼苗的生理性状。对比一个生长季前后白桦移栽幼苗生理性状的变化可以发现,白桦作为先锋种植物,在新迁入环境后具有良好的环境适应性,能通过调整生理性状适应新环境。研究对幼苗在林下的演替以及森林的更新具有借鉴意义。     

Similarity of PO2 and PCO2 values in the air cell of eggs of birds and in the alveolar gas of humans at sea level and at high altitude

At the end of incubation, the partial pressures of oxygen and carbon dioxide in the air cell of sea-level avian eggs are similar to those in the expiratory air of adult birds. At high altitude, changes in the permeability of the shell and probably in the embryo metabolism partially compensates the increase in the gas diffusion constant resulting from the low barometric pressure. The aim of this study was to test whether-despite of the adaptive responses of the high altitude avian embryo-the air cell values would be similar to those of the alveolar air of high altitude human natives. Air cell O₂ (48.3±1.6 torr) and CO₂ (20.9±0.85 torr) pressure values were obtained by studying naturally incubated eggs of the Andean gull (Larus serranus)_at 4650m. Sea-level chicken (Gallus gallus) air cell pressure values of O₂ (102.3±2.7 torr) and of CO₂ (43.3±1.3 torr) were obtained from the literature for comparison. Both these values were similar to those found in the alveolar air of humans at sea level (O₂: 104.4±0.4 torr, CO₂:40.1±0.25 torr) and at high altitude (4540 m) (O₂:50.5±0.53 torr, CO₂: 29.1±0.37 torr). Despite very large evolutionary changes in morphology and physiology of the respiratory organs, the head pressure of O₂ that oxygenates the blood keeps a constant value in the pre-pipping avian embryo and in the alveolar air of adult mammals. This constancy holds valid at high altitude.     

Role of altitude and water temperature as regulating factors for the geographical distribution of Tetracapsuloides bryosalmonae infected fishes in Switzerland

The role of water temperature and altitude of the river sites on distribution, prevalence and infection intensity of Tetracapsuloides bryosalmonae infected salmonids was investigated. The study is based on a 6 year survey of salmonids, mainly brown trout, Salmo trutta from 2000 to 2006 at 287 sampling sites across Switzerland. Almost 7000 fishes were tested for the presence of T. bryosalmonae by histological and immunohistochemical techniques. A good correlation between altitude and water temperature in Swiss rivers could be demonstrated. Therefore, the relation between altitude and sites tested for T. bryosalmonae infected fishes was investigated since water temperature values from these sites were not available. Percentage of sites with positive (infected) fishes was identical for altitudes between 200 and 800 m above sea level (m a.s.l.), while above 800 m a.s.l. only three sites with infected fishes were recorded. Site‐specific prevalence values ranging from 0 to 100% and infection intensities from 0 to 6 were found over the whole altitude range from 200 to 800 m a.s.l., and no correlation with altitude was found. Conditions at altitudes >800 m may not be favourable for the establishment of the infection in fishes. With rising temperatures due to climatic changes, however, the prevalence of T. bryosalmonae infected fishes in altitudes >800 m a.s.l. could increase.