Respiration Rate of Barley Roots: its Relation to Growth, Substrate Supply and the Illumination of the Shoot

The respiration rate of roots on intact barley plants grownin 16 h light 8 h dark cycles shows an exponential decay inthe dark, rises on re-illumination and there is a transientfall 12–14 h into the photoperiod Roots of plants placedin the dark for up to 48 h show a continued exponential decay,and a rather small fall in soluble carbohydrate levels The respirationof roots excised from predarkened plants does not rise on additionof sucrose to the medium bathing them Respiration rate, measured10 h into the photoperiod, shows a constant relation to rootweight in plants 8–24 days old, during which time rootcarbohydrate content first falls and later rises It is concludedthat root respiration rate is not a simple function of carbohydratesupply from the shoot The importance of root respiration inthe carbon budget of barley plants is evaluated and the levelsof control operating on root respiration rate are briefly discussed Hordeum distichum (L ) Lam, barley, respiration rate, light, carbohydrate     

Adrenergic responses of the cardiovascular system of the eel, Anguilla australis, in vivo

Heart output, arterial pressures, and heart rate were measured directly in conscious unrestrained eels (Anguilla australis) and responses to intra-arterial injection of adrenaline monitored. Adrenaline increased systemic vascular resistance, heart output, and cardiac stroke volume in all animals. In some cases small transient decreases in stroke volume and hence heart output were seen at the peak of the pressor response: These probably reflect a passive decrease in systolic emptying due to increased afterload on the heart. In most cases, adrenaline produced tachycardia; but two animals showed consistent and profound reflex bradycardia, which was accompanied by a concomitant increase in stroke volume such that heart output was maintained or increased slightly. The interaction of changes in heart output and systemic vascular resistance produced complex and variable changes in arterial pressure. There was no consistent pattern of changes in branchial vascular resistance. Atropine treatment in vivo revealed vagal cardio-inhibitory tone in some animals and always blocked the reflex bradycardia seen during adrenaline induced hypertension. In some animals, adrenaline injection after atropine pretreatment led to the establishment of cyclic changes in arterial pressure with a period of about 1 min (Mayer waves).     

The time-course of the synthesis of adenosine triphosphate in Ehrlich ascites-tumour cells, and the effect of 2,4-dinitrophenol

1. In Ehrlich ascites-tumour cells kept in nitrogen at 20 degrees for 20-30min., the ATP concentration falls from about 15mumoles/g. dry wt. to 2-3mumoles/g. dry wt. 2. If oxygen is admitted to such cells, the ATP concentration rises again in 1-2min. to about 15mumoles/g. dry wt. 3. If glucose is added, in nitrogen, there is a slower increase in ATP concentration to about 6mumoles/g. dry wt., followed by a fall and then by a still slower rise. 4. With glucose and oxygen, the ATP concentration rises rapidly in 1min. to about 8mumoles/g. dry wt., then falls, and finally increases slowly to reach 15mumoles/g. dry wt. in 2hr. 5. 2,4-Dinitrophenol (0.3mm) has little effect on these processes. 6. At 1.0mm, 2,4-dinitrophenol completely inhibits the ATP synthesis dependent on the endogenous respiration, while leaving that in the presence of glucose only a little impaired in rate, and considerably greater in magnitude. 7. ATP synthesis in the presence of glucose and 1.0mm-2,4-dinitrophenol is about three times as fast in oxygen as in nitrogen.     

Decrease in the lower limit of the rat brain vital activity by the physiological method]

The brain temperature, at which the cessation of the lung respiration occurs in the cooled animals, can be named the lower temperature limit of the brain functional competence, since at this temperature the spontaneous respiration is not restored on its own, and without special artificial undertakings the animals perish. In this study upon the total cooling of the rat bodies their lung respiration stopped completely as the temperature of the medulla oblongata in the region of the respiratory center decreased to 18.18 +/- 0.17 degrees C. This occurred simultaneously with an abrupt decrease in the heart rate and in the arterial blood pressure (AP) to 42 +/- 1 mm Hg. Upon an isolated cooling of the rat head the heart rate and AP were maintained at a comparatively high level. Under such conditions the lung respiration did not stop even as the temperature of the medulla oblongata decreased to 17.23 +/- 0.25 degrees C. It retained rhythmicallity, a particular rate, and a comparatively high amplitude. It is suggested that an intensive blood supply of the cooled brain decreases the lower temperature limit of its vital activity.     

Blood pressure of sinoaortic-denervated dogs is not increased by cardiac denervation

Although blood pressure rises markedly after acute sinoaortic denervation, animals with chronic sinoaortic denervation have normal or only slightly elevated mean arterial pressures. The present study was performed to determine whether reflexes from cardiac receptors exert antihypertensive effects and thereby lower blood pressure in animals with chronic sinoaortic denervation. We made multiple measurements of blood pressures in dogs with chronic sinoaortic denervation before and after their hearts were denervated surgically. Mean arterial pressure after cardiac denervation (100.3 +/- 4.2 mm Hg) was not significantly different from the mean pressures recorded before cardiac denervation in these sinoaortic-denervated dogs (104.8 +/- 3.1 mm Hg). Also, mean heart rate after cardiac denervation (107.4 +/- 5.5 beats/min) did not differ significantly from the mean heart rate recorded before cardiac denervation (107.2 +/- 5.9 beats/min). Cardiac denervation did, however, appear to reduce the lability of both blood pressure and heart rate in sinoaortic-denervated dogs. We conclude that cardiac receptors are not responsible for maintaining arterial pressure within essentially normal limits in animals with chronic sinoaortic denervation.     

D- and L-isoprenaline have different effects on adrenoceptors in the systemic vasculature of the cod, Gadus morhua

The effects of D- and L-isoprenaline on systemic vascular adrenoceptors of the cod was studied using blood pressure recording from conscious cod in vivo and isolated coeliac artery strip preparations in vitro. Experiments with isolated artery preparations demonstrated that the D-, but not the L-isomer of isoprenaline acts as an alpha-adrenoceptor antagonist. A dose-dependent reduction of ventral and dorsal aortic blood pressures together with a dose-dependent increase in the heart rate could be produced by injection of L-isoprenaline. D-Isoprenaline, on the other hand, had no effect on the blood pressures or heart rate except in the highest dose injected. The results show an alpha-adrenoceptor blocking capacity of D-isoprenaline in the cod. The effect of L-isoprenaline on the blood pressure supports the idea that the hypotensive effect of DL-isoprenaline seen in previous studies of the cod may be attributed to an effect of the L-isomer on beta-adrenoceptors mediating vasodilation of the cod systemic vasculature.     

Transient interactions between blood pressure,respiration and heart rate in man

Auto regressive spectral estimation techniques have been used to follow transient interactions between mean blood pressure, respiration and heart rate. This demonstrates that these inter-relationships are variable. It is concluded that while central modulation of heart rate is the major factor in the interactions, when the heart rate is fixed, peripheral modulation of the blood pressure by respiration is clearly demonstrated.     

Does excess dietary carbon affect respiration of <Emphasis Type="Italic">Daphnia</Emphasis>?

Like many invertebrate herbivores, Daphnia frequently face diets with excess carbon (C) relative to elements like phosphorus (P), and with limited ability to store C-rich compounds. To cope with this relative surplus of C they may either regulate the net uptake of C or dispose of excess assimilated C via increased release of dissolved organic carbon or CO₂. Here we investigate whether juvenile Daphnia magna use respiration as a means of stoichiometrically regulating excess C. Growth rate and respiration were measured under different algal food qualities (P-replete and P-depleted algae). Growth rate was strongly reduced by P-depleted food, implying a stoichiometric disposal of excess ingested C. Respiration rates of feeding animals were measured after short- (0.5 h), medium- (12 h) and long- (five days) term acclimation to P-limited food. The respiration rates of animals during active feeding were not affected by the acclimation period per se, whereas food quality had a significant effect; respiration rates of feeding animals increased slightly in individuals receiving low-P food under all acclimation regimes. Respiration was also measured on nonfeeding and fasting animals that had been acclimated for five days to P-limited food. Respiration rates of these animals were strongly affected by feeding conditions but not by food quality; feeding individuals had higher respiration rates than those deprived of food, which again had higher respiration than fasting animals. Although animals grown on low-P food had strongly reduced growth and thus were expected to have decreased respiration rates due to reduced growth-related costs, this seems to be canceled out by increased stoichiometric respiration under P-deficiency. These results indicate that D. magna partly releases excess C as CO₂, but other means of stoichiometric regulation most likely add to this.     

油酸致兔ARDS模型长期效果的多因素析评

目的:研究油酸致ARDS模型对疾病的长期模拟效果,并探讨内在机制。方法:选择健康新西兰大白兔30只,经左侧耳缘静脉按油酸0.1 ml/kg的剂量缓慢注入,观察动物呼吸、心率变化,测定氧合指数(PaO2/FiO2)、动脉氧分压、二氧化碳分压。分别于注射油酸后6小时、24小时、48小时以及72小时处死动物,收集静脉血及肺泡灌洗液(BALF),ELISA法检测肿瘤坏死因子α(TNF-α)、白细胞介素6(IL-6)变化。H-E染色镜下观察肺部病理改变,计算肺组织含水量以判断肺损伤程度。结果:①所有模型动物在6小时内均出现ARDS表现。②6h组、24h组以及48h组氧合指数(PaO2/FiO2)与正常对照组相比均明显降低(P<0.05),且符合ARDS诊断标准。72h组氧合指数(PaO2/FiO2)虽然也明显降低,但未达到ARDS的诊断标准。③血浆中TNF-α与IL-6明显升高(P<0.05),于致伤后72小时后有所恢复,但仍高于正常。BALF中TNF-α也出现相同变化趋势,而IL-6则在试验期间持续高表达。④镜下可见两肺充血、出血,肺泡及肺间质水肿,透明膜形成,大量中性粒细胞浸润,终末支气管上皮细胞变性坏死,双肺含水...     

温带草原11个植物群落夏秋土壤呼吸对气温变化的响应

 在夏秋季节,采用碱液吸收法对锡林郭勒草原11个群落的土壤呼吸进行了测定,比较和分析了各群落土壤呼吸的季节动态、平均呼吸速率、土壤呼吸对气温变化的响应。结果表明：1）各群落土壤呼吸有明显的季节变化,其动态与气温大体一致,但不完全同步; 2）生长季各群落平均呼吸速率介于565.07～1 349.56 mg C·m-2·d-1之间,总体差异极显著,各群落平均呼吸速率与平均气温无显著相关关系;3）指数模型能较好地表示土壤呼吸对温度变化的响应,温度能在一定程度上解释土壤呼吸的季节变化,但温度较低时模型的拟合好于温度较高时;4）各群落的Q10值介于1.47～1.84之间,与各群落的平均气温亦无显著相关关系,小麦群落的Q10高于所有草地群落,说明土地利用方式对土壤呼吸的温度敏感性有影响。     

Respiratory sinus arrhythmia is associated with efficiency of pulmonary gas exchange in healthy humans

Respiratory sinus arrhythmia (RSA) may be associated with improved efficiency of pulmonary gas exchange by matching ventilation to perfusion within each respiratory cycle. Respiration rate, tidal volume, minute ventilation (.VE), exhaled carbon dioxide (.VCO(2)), oxygen consumption (.VO(2)), and heart rate were measured in 10 healthy human volunteers during paced breathing to test the hypothesis that RSA contributes to pulmonary gas exchange efficiency. Cross-spectral analysis of heart rate and respiration was computed to calculate RSA and the coherence and phase between these variables. Pulmonary gas exchange efficiency was measured as the average ventilatory equivalent of CO(2) (.VE/.VCO(2)) and O(2) (.VE/.VO(2)). Across subjects and paced breathing periods, RSA was significantly associated with CO(2) (partial r = -0.53, P = 0.002) and O(2) (partial r = -0.49, P = 0.005) exchange efficiency after controlling for the effects of age, respiration rate, tidal volume, and average heart rate. Phase between heart rate and respiration was significantly associated with CO(2) exchange efficiency (partial r = 0.40, P = 0.03). These results are consistent with previous studies and further support the theory that RSA may improve the efficiency of pulmonary gas exchange.     

桃芽自然休眠与两条主要电子传递途径变化的关系

花芽和叶芽总呼吸速率最低点均与自然休眠进程有关,第一个与自然休眠的起始时间相对应,最后一个则与自然休眠解除期相对应;细胞色素途径抑制剂氰化钾（KCN）对休眠芽的呼吸起部分抑制作用;抗氰呼吸抑制剂水杨基氧肟酸（salicylhydroxamic acid,SHAM）对总呼吸速率的效应随休眠进程而变化,休眠前期起促进作用,随休眠进程其促进作用逐渐减弱,从可调控休眠期（对外源措施敏感期）起转入抑制效应;KCN＋SHAM混合剂对总呼吸速率的效应与SHAM单独使用的效果相似,但其时总呼吸速率促进作用的起始点和结束点均较SHAM单独使用旱7d左右。     

Respiration in Branchinella Kugenumaensis (Crustacea-Anostraca) inhabiting tropical astatic ponds

The oxygen consumption (routine rate) of Branchinella kugenumaensis, inhabiting tropical astatic ponds is measured at 28°C. Two distinct trends are observed in the oxygen consumption by this fairy shrimp; young, immature animals have a higher rate than the older, sexually mature animals. Branchinella kugenumaensis falls under the intermediate group of Bertalanffy, where respiration falls between the respiration surface proportional and the respiration weight proportional metabolism.     

Attenuated cardiovascular effects of prostaglandin I2 and prostaglandin F2 alpha in cold acclimated American bullfrogs, Rana catesbeiana

American bullfrogs, Rana catesbeiana respond to prostaglandins with changes in heart rate and blood pressure. These studies compare responses of warm (22 degrees C) and cold acclimated (5 degrees C) bullfrogs to prostaglandins. Gas chromatographic analysis determined equivalent fatty acid profiles in total lipids of heart and artery tissue from warm and cold acclimated animals. Arachidonic acid was the fatty acid precursor found in greatest abundance in both groups. For cardiovascular experiments, bullfrogs were cannulated by using a T-cannula implanted in the right sciatic artery. In warm acclimated bullfrogs, preinfusion systemic arterial pressure (SAP) was 14.7 +/- 0.5 mm Hg, and heart rate was 33.0 +/- 1.7 beats/min. Cold acclimated bullfrogs had SAP values of 8.0 +/- 0.8 mm Hg, and heart rate was 6.9 +/- 0.3 beats/min. Arachidonic and eicosapentaenoic acid infusions (2,000 micrograms/kg body weight [bw]) were hypertensive in cold acclimated and hypotensive in warm acclimated animals. These effects were blocked by indomethacin (4 mg/kg bw). In both warm and cold acclimated bullfrogs, prostaglandin F2 alpha (3-100 micrograms/kg bw) was hypertensive, while prostaglandin I2 (0.03-3 micrograms/kg bw) was hypotensive, with both prostaglandins stimulating a greater absolute response in warm acclimated animals. In addition, both prostaglandins increased heart rate in warm but not in cold acclimated bullfrogs. The results suggest diminished cardiovascular sensitivity to prostaglandins at low environmental temperatures.     

Cardiovascular responses to catecholamines at 12 degrees C in the American bullfrog (Rana catesbeiana)

The effects of epinephrine, norepinephrine, phenylephrine, and isoproterenol on blood pressure and heart rate were studied in cannulated American bullfrogs, Rana catesbeiana. The bullfrogs were chronically cannulated with a T cannula in the right sciatic artery. In warm-acclimated (22 degrees C) bullfrogs, preinjection mean systemic arterial pressure (SAP) prior to experimental treatment was 13.1 +/- 0.7 mm Hg. Preinjection heart rate was 34.8 +/- 1.8 beats per minute. These parameters were lower in cold-acclimated (12 degrees C) bullfrogs. Cold-acclimated animals had mean SAP values of 8.2 +/- 0.3 mm Hg, and heart rate was 11.1 +/- 1.1 beats per minute. Epinephrine, norepinephrine, and phenylephrine increased blood pressure to an equivalent degree in warm- and cold-acclimated animals. Dose-related decreases in heart rate in response to these catecholamines were observed in warm- but not in cold-acclimated bullfrogs. Warm-acclimated animals were more responsive to isoproterenol from 0.03 micrograms/kg body weight (bw) to 10 micrograms/kg bw than were cold-acclimated animals. The response to isoproterenol was effectively blocked by propranolol (5 mg/kg bw) in both warm- and cold-acclimated animals. Propranolol alone decreased mean SAP in both warm- and cold-acclimated animals, suggesting blockade of endogenous sympathetic activity. Beta receptor response thus appears diminished, but not absent at 12 degrees C. However, the alpha receptors responsible for elevation of blood pressure equally responsive at 12 degrees and 22 degrees C.     

Diel oxygen uptake in Chaoborus punctipennis (diptera : culicidae)

Oxygen consumption (µl/ mg dry wt. · hr^–1 corrected to STP) in Chaoborus punctipennis was measured in a Gilson differential respirometer at two-hour intervals during 24-hour periods. Animals were held at controlled conditions similar to those at the time of collection. Respiration was measured under controlled temperatures and natural photoperiod. Measurements were begun about 36 hours after collection.Winter-collected animals showed a lower and more stable respiration than summer and fall-collected animals which did not differ from one another. Respiration increased with temperature becoming quite variable at 30°C where mortality was highest. Animals collected at different seasons and subjected to a variety of temperatures did not show a predictable pattern of respiration during the daily cycle under any condition tested.Since the 36-hour delay in respiration measurements could have dampened a diel cycle, oxygen consumption was determined within an hour of collection and followed for 24 hours. For this experiment animals were collected at six-hour intervals over a 24-hour period. Respiration did not show a predictable pattern of variation during the day-night cycle.This work was supported in part by a grant from Department of Interior, Office of Water Resources Research. All correspondence should be addressed to A.S. Tombes.     

Respiratory loss and bulk export of organic matter from cattle dung pats: a field study

Respiratory loss and bulk transport of organic matter from dung pats in a Danish pasture were measured by a chromic oxide marker technique. Measurements covered the period until a dung age of 7-8 weeks. On average, respiration and transport contributed 46% and 54% of organic matter disappearance in three spring experiments: in three autumn experiments the corresponding values were 25% and 75%. Thus, both processes are important. The rate of transport was highest at the bottom of the pat, whereas the highest respiratory rate occurred in the top and periphery. During the first 10–14 days transport predominated, probably owing to the activity of dung insects, whereas respiration was remarkably low. During the remaining period, transport was probably affected mainly by earthworms. Respiration seemed to be mostly microbial and to proceed during dung pat decay in essentially the same way as did cellulolytic activity. Earthworms did not significantly affect the respiration of pats.     

Plasmodium berghei: malaria infection causes increased cardiac output in rats, Rattus rattus

Thirty-two 4-week-old male Wistar rats were infected with Plasmodium berghei malaria. On Days 12 through 14, blood volume, arterial blood pressure, right ventricular pressure, heart rate, cardiac output, stroke volume, hematocrit, and vascular resistances were determined. All of the cardiovascular parameters measured, with the exception of calculated pulmonary vascular resistance, changed progressively as the peripheral blood parasitemia increased. With a rising parasitemia, cardiac output increased, despite a reduced heart rate. The highest parasitemia of 63% was accompanied by a doubling of the normal cardiac output. The relationship between parasitemia and cardiac output can be described by the equation, cardiac output = (6.14) x % parasitemia + 452 ml/min/kg. The mean arterial blood pressure was lower than controls when parasitemia exceeded 20%, whereas systolic right ventricular pressure was elevated only at the highest parasitemias. When noninfected control rats were compared with those animals having parasitemias greater than 40%, in the infected animals, mean arterial pressure was 28% lower (P less than 0.01) and systolic right ventricular pressure rose by 21% (P less than 0.02). A 50% decline was observed in the total peripheral vascular resistance (P less than 0.01), although the pulmonary resistance was apparently unchanged. With P. berghei infection, there is also a marked anemia, an increase in plasma volume, and a 16% increase in blood volume (% body weight). It is concluded from these results that although the hemodynamic changes previously reported in the literature indicate that infection with malaria may result in focal blockages in microvessels and poor tissue perfusion, the total systemic effect, in the rat, is an increase in cardiac output secondary to a reduced peripheral resistance.(ABSTRACT TRUNCATED AT 250 WORDS)     

Respiration rates of some greenhouse cultivated tropical and subtropical species

A comparative study of dark respiration and effects of high and low temperature on dark respiration in five greenhouse cultivated tropical and sub-tropical species was made. The respiration rates determined manometrically were low in all species. Respiration rates increased with increasing temperature. Low temperature treatment accelerated the rate of respiration at 25 °G except in two species. An attempt has been made to determine the critical and optimum temperature for these species. The respiratory behaviour of these species has been discussed with respect to their original habitats and prevailing environmental conditions.     

Drug-Induced Changes in Blood Pressure Lead to Changes in Extracellular Concentrations of Epinephrine, Dihydroxyphenylacetic Acid, and 5-Hydroxyindoleacetic Acid in the Rostral Ventrolateral Medulla of the Rat

Neurochemical changes in the extracellular fluid of the rostral ventrolateral medulla (RVLM) were produced by changes in arterial blood pressure. Blood pressure was raised or lowered with systemic infusions of phenylephrine or nitroprusside and neurochemicals were recovered from RVLM by in vivo microdialysis. A dialysis probe 300 microns in diameter and 500 microns in length was stereotaxically implanted in the RVLM of the urethane-anesthetized rat. Sterile physiological Ringer's solution was perfused at a rate of 1.5 microliter/min. The perfusate was collected under ice-cold conditions every 15 min for the assay of epinephrine, dihydroxyphenylacetic acid (DOPAC), 5-hydroxyindoleacetic acid (5-HIAA), ascorbic acid, and uric acid. After stable baseline neurochemical concentrations were achieved, animals were infused with phenylephrine or nitroprusside intravenously to raise or lower the blood pressure. Increasing blood pressure 50 mm Hg above the baseline value by phenylephrine led to a significant reduction in heart rate and a reduction in extracellular epinephrine and DOPAC concentrations. The 5-HIAA concentration was increased during the hypertensive drug infusion. There were no changes in the concentrations of ascorbic acid or uric acid. Hypotension produced by nitroprusside (-20 mm Hg) led to neurochemical changes which were the reciprocal of those seen during hypertension. During hypotension, heart rate increased as did the extracellular fluid epinephrine concentration. The 5-HIAA concentration fell with hypotension and remained depressed following the nitroprusside infusion. Ascorbic acid and uric acid concentrations did not change during hypotension but ascorbic acid did increase after the nitroprusside infusion stopped. These data provide direct evidence that epinephrine release in RVLM is linked to changes in systemic blood pressure.(ABSTRACT TRUNCATED AT 250 WORDS)