The effect of prolactin on kidney structure of the euryhaline teleost Gasterosteus aculeatus during adaptation to fresh water

Summary The effect of injections of ovine prolactin on kidney structure was examined in the first 10 days following transfer of seawater sticklebacks to fresh water.In hormone injected animals as well as in controls the glomeruli increase slightly in size after transfer. The podocytes intensify the secretion of mucopolysaccharides, which is indicative of increased turnover of the components of the glomerular basal lamina. The nuclei of the podocytes become enlarged, while those of the juxtaglomerular cells decrease in size. These changes are related to the well known rise of the glomerular filtration rate following transfer to fresh water. Structural indications that prolactin is involved in the control of glomerular filtration were not found.The epithelial cells of the three nephronic segments and of the ureter become considerably better developed after transfer to fresh water. Cell height, nuclear and mitochondrial volume, and surface of the membranes of the basal labyrinth increase in all tubular epithelia, although not to the same extent. Increases are moderate in the first proximal segment, but increasingly higher for the second proximal segment, collecting duct and the ureter. Especially the growth of membrane surface of the basal labyrinth, site of ion transport mechanisms, is impressive. In controls, values characteristic for freshwater fishes are reached in 6 to 9 days for all parameters for cellular development. Prolactin injections greatly stimulate growth rates in all tubular epithelia: freshwater values are reached within 3 days. No further increase was found, however.     

The relationship between the ionic composition of the environment and the secretory activity of the endocrine cell types of stannius corpuscles in the teleost Gasterosteus aculeatus

Summary The corpuscles of Stannius of threespined sticklebacks contain two glandular cell types of presumed endocrine nature. To elucidate the function of both cell types the secretory activity of the cells was studied in fully adapted seawater and freshwater fishes and in specimens transferred from sea water to fresh water or adapted to media of various ionic composition. The secretory activity was established, in tissue sections and freeze-etch replicas, by estimating the volume of the nuclei, the density of the nuclear pores, and the frequency of exocytotic phenomena.The type-1 cells, ultrastructurally comparable to the predominant or only cell type described in many other teleosts, are more active in sea water than in fresh water. The activity of the type-2 cells, whose ultrastructural appearance is known only for salmonids and eels, is higher in fresh water. Transfer of seawater fishes to fresh water results in reduction of type-1 cells and activation of type-2 cells. The factors responsible for these changes were analyzed by exposure of fishes to solutions of various salts in fresh water and to artificial sea water with a reduced content of one of its components. The high activity of type-1 cells in sea water proved to be related to the high calcium content of this medium. These cells probably produce a substance comparable to hypocalcin, the endocrine factor isolated from the Stannius corpuscles of some other teleost species. The high activity of type-2 cells in fresh water appeared to be connected with the low sodium and potassium levels of this medium. Type-2 cells possibly produce a hitherto unknown hormone involved in the control of sodium and/or potassium metabolism.The technical assistance of Miss C. Mein and Mr. J. Zagers is gratefully acknowledged     

Long lasting stickleback sperm; is ovarian fluid a key to success in fresh water?

Although the sperm of externally fertilizing fishes usually has a brief life span of up to a few minutes, this study showed that the sperm of the three-spined stickleback Gasterosteus aculeatus moved for several hours in brackish water and up to at least 10 h in the presence of ovarian fluid. Three-spined sticklebacks were able to spawn in waters ranging from full-strength sea water to fresh water, an ability unusual among fishes. The influence of salinity on sperm motility was examined, using three-spined sticklebacks from sea (salinity 30), brackish (5·5) and freshwater (0) populations. All three populations were found to have sperm with long motility periods in brackish water, lasting 165–270 min. Seawater three-spined sticklebacks had sperm motile for up to 65 min in sea water, whereas sperm from fresh- and brackish-water fish were quiescent in this medium. In fresh water, sperm from all three populations showed a very brief motility period, lasting <60 s. The presence of ovarian fluid, however, prolonged the motility period of sperm from both fresh- and brackish-water three-spined sticklebacks, for up to 7 and 10 h in fresh and brackish water, respectively, with some sperm found to be motile for up to 24 h. The results indicated that ovarian fluid created a favourable environment for the sperm and might have facilitated the three-spined sticklebacks' successful penetration of fresh water.     

Changes in glomerular structure after sexual maturation and seawater adaptation in males of the euryhaline teleost Gasterosteus aculeatus L.

Summary In sexually mature male sticklebacks, the renal tubular cells are transformed from ion reabsorbing to mucus secreting cells and in these fish concomitant changes take place in the glomeruli.The present study compares glomerular structure of immature males in fresh water (controls) to those of mature males in fresh water and to immature male sticklebacks in seawater. Glomerular structure is markedly altered in the latter two groups and the changes are similar to a large extent. In these two groups the renal capsules and glomeruli are smaller and the lumina of the glomerular capillaries decrease in diameter, while the number and size of the endothelial fenestrations are reduced. Mesangial cells proliferate and the mesangial matrix greatly expands in both the centrolobular region and the subendothelial space around the capillaries. The secretory activity of the podocytes is enhanced and is responsible for the observed increase in thickness of the outer layer of the basal lamina, the lamina rara externa. The area covered by the filtration slit membranes is reduced, probably as a consequence of fusion of the pedicels of the podocytes. The permeability characteristics of the glomerular filtration barrier for macromolecules, as studied with ferritin injections, remain unaltered. However, the observed differences point to a reduction of the glomerular filtration rate (GFR) during maturation in male sticklebacks, as well as during adaptation of sticklebacks to seawater. This conclusion is in line with physiological evidence.     

Mitochondria-rich (chloride) cells in the gill epithelia from four species of stenohaline fresh water teleosts

Summary The mitochondria-rich (chloride) cells have been found to be present in the gill epithelia of four species of stenohaline fresh water teleosts. The cytoplasm of these chloride cells contains an extensive network of cytoplasmic tubules which communicate with intercellular spaces bordering the lateral and basal cell surfaces. Numerous vesicles with fairly electron-dense interiors are also present in the apical cytoplasm of chloride cells. The apical surface of a chloride cell forms an apical pit, but the lumen of the pit does not appear to be in continuity with the interior of the apical vesicles and tubules inside the cell.When Carassius auratus were kept in 100, 200, 300, and 400 mOsm-diluted sea water for a month, no appreciable changes occurred in the number and fine structure of the chloride cells, except for a dilation of the apical vesicles and a slight decrease in diameter of the cytoplasmic tubules in these cells in the fishes kept in 300 and 400 mOsm.These results suggest that chloride cells may be a rather common occurrence in the gill epithelia of stenohaline fresh water teleosts, and may function in ion-transport in these fishes in fresh water environments.     

The ultrastructure of plasma and thylakoid membrane vesicles from the fresh water cyanobacteriumAnacystis nidulans adapted to salinity

Summary Photoautotrophically growing cultures of the fresh water cyanobacteriumAnacystis nidulans adapted to the presence of 0.4–0.5 M NaCl (about sea water level) with a lag phase of two days after which time the growth rate reassumed 80–90% of the control. Plasma and thylakoid membranes were separated from cell-free extracts of French pressure cell treatedAnacystis nidulans by discontinuous sucrose density gradient centrifugation and purified by repeated recentrifugation on fresh gradients. Identity of the plasma and thylakoid membrane fractions was confirmed by labeling of intact cells with impermeant protein markers prior to breakage and membrane isolation. Electron microscopy revealed that each type of membrane was obtained in the form of closed and perfectly spherical vesicles. Major changes in structure and function of the plasma membranes (and, to a much lesser extent, of the thylakoid membranes) were found to accompany the adaptation process. On the average, diameters of plasma membrane vesicles from salt adapted cells were only one-third of the diameters of corresponding vesicles from control cells. By contrast, the diameters of thylakoid membrane vesicles were the same in both cases.Freeze-etching the cells and counting the number of membrane-intercalating particles on both protoplasmic and exoplasmic fracture faces of plasma and thylakoid membranes indicated a roughly 50% increase of the particle density in plasma membranes during the adaptation process while that in thylakoid membranes was unaffected. Comparison between particle densities on isolated membranes and those on corresponding whole cell membranes permitted an estimate as to the percentage of inside-out and right-side-out vesicles. Stereometric measurement of particle sizes suggested that two distinct sub-populations of the particles in the plasma membranes increased during the adaptation process, tentatively correlated to the cytochrome oxidase and sodium-proton antiporter, respectively. The effects of salt adaptation described in this paper were fully reversed upon withdrawal of the additional NaCl from the growth medium (deadaptation). Moreover, they were not observed when the NaCl was replaced by KCl.Abbreviations CM cytoplasmic or plasma membrane - ICM intracytoplasmic or thylakoid membrane - EF exoplasmic fracture face - PF protoplasmic fracture face - DABS diazobenzosulfonate; Hepes N-2-hydroxyethylpiperazine-N-2-ethane-sulfonate - PMSF phenylmethylsulfonylfluoride Dedicated to the memory of Professor Oswald Kiermayer     

The cytochemical demonstration of catalase and D-amino acid oxidase in the microbodies of teleost kidney cells

Synopsis The distribution of catalase and D-amino acid oxidase, marker enzymes for peroxisomes, was determined cytochemically in the kidney tubules of an euryhaline teleost, the three-spined stickleback.Catalase activity was localized with the diaminobenzidine technique. The presence of D-amino acid oxidase was determined using H₂O₂ generated by the enzyme, D-alanine as a substrate, and cerous ions for the formation of an electron-dense precipitate. Both enzymes appeared to be located in microbodies. The combined presence of these enzymes characterizes the microbodies as peroxisomes. Biochemically and cytochemically, no urate oxidase or glycolate-oxidizing L--hydroxy acid oxidase could be demonstrated.Stereological analysis of the epithelia lining the renal tubules showed that the fractional volume of the microbodies is 5 to 10 times higher in the cells of the second proximal tubules than in the other nephronic segments or the ureter. The fractional volume of the microbodies was similar in kidneys of freshwater and seawater fishes.     

Ultrastructure of chloride cells in young adults of the anadromous sea lamprey, Petromyzon marinus L., in fresh water and during adaptation to sea water.

The chloride cells in the interlamellar areas of the gills of young adult, anadromous sea lampreys, Petromyzon marinus L., captured in fresh water undergo structural modification during the adaptation of these animals to sea water. In fresh water the chloride cells are partially overlapped by mucus-secreting superficial cells and contain an extensive reticulum of cytoplasmic tubules, which are confluent with both lateral and basal plasma membranes, numerous mitochondria, a Golgi complex of moderate size, and numerous apical vesicles. Adaptation to sea water results in a retraction of the superficial cells, exposing the entire apical surface of the chloride cells, and a proliferation of both cytoplasmic tubules and mitochondria. Extensive enlargement of the Golgi complex in the chloride cells of these animals suggests the involvement of this organelle in the proliferation of cytoplasmic tubules. The extracellular tracer, ruthenium red, enters the tubules from the lateral or basal intercellular spaces in both freshwater- and seawater-adapted animals but never enters either tubules or vesicles from the apical surfaces, indicating that these are not confluent. The presence of dividing basal cells and newly-forming chloride cells, combined with evidence of degeneration of chloride cells, suggests that there is a turnover of this cell type. Both superficial and basal cells are phagocytic and involved in heterophagy of degenerating chloride cells. This phenomenon occurs in both fresh water and sea water indicating that the chloride cells may be functional in both environments.     

The praeoptico-hypophysial system,Nucleus tuberis lateralis and the subcommissural organ of Gasterosteus aculeatus after changes in osmotic stimuli

Summary The histology and cytology of the praeoptico-hypophysial system, nucleus tuberis lateralis and subcommissural organ in Gasterosteus aculeatus were analyzed after the fishes had been put in waters of different salinity (see Tables 1–4).These three structures are all identical in fishes which are accustomed to fresh water and to 32 salt-water. A transference to hypertonic water causes changes in the neurosecretory system which suggest the existence of an antidiuretic principle in the neurosecretory substance. No such relationship is found when the fishes are put into hypotonic water. Further, no connection is found between either the secretion production in nucleus tuberis lateralis or in the subcommissural organ and variations in osmotic value.Aided by grants from the Swedish Natural Science Research Council.     

Apparent anion imbalance in the fresh water adapted eel

Summary On adapting brackish waterAnguilla anguilla to fresh water it was noted that, while the plasma sodium, magnesium,pCO₂ and pH were held reasonably constant, there was a substantial fall in chloride concentration (–33 mEq). The gradient of the linear correlations between plasma sodium and chloride also fell (brackish water gradient=0.92, fresh water gradient=0.21) indicating that a new pattern of plasma ion interrelationships was being established. Comparison with plasma Na/Cl ion ratios from other fishes suggested that this phenomenon was peculiar toA. anguilla. Corresponding with the very low plasma chloride levels plasma bicarbonate was four to five times that found in other fishes, and this was thought related to the finding that the haematocrit value almost doubled during adaptation to fresh water. In fresh water adapted fish a fall in plasma chloride was associated with a rise in plasma bicarbonate, however the charge compensation effect of this response was only partial as summing the common plasma cations and anions left an anion deficit of about 34 mEq to be accounted for.     

The tubular endoplasmic reticulum in the amoebocytes of the shell-regenerating snail,Helix pomatia L.

Summary The tubular endoplasmic reticulum has been studied in the amoebocytes which are present in the connective tissue of the hepatopancreas of the snail, Helix pomatia. The reticulum is similar to that previously described within the glandular cells of the hepatopancreas. Two distinct components are recognizable in the reticulum—central main tubules approximately 100 m in diameter and connecting tubules about 20 m in width. The profile of this tubular network in cross-sections appears as a very regular, apparently crystalline array. The tubules are intimately associated with dense granular material, dense bodies and with mitochondria. The possible function of the tubular endoplasmic reticulum is discussed.This investigation was supported by grants from the Swedish Natural Science Research Council, which are gratefully acknowledged. I am indebted to Miss G. Drugge for her technical assistance.     

Arsenic concentrations in water and fish from Chautauqua Lake,New York

Synopsis Arsenic persists in Chautauqua Lake, New York waters 13 years after cessation of herbicide (sodium arsenite) application and continues to cycle within the lake. Arsenic concentrations in lake water ranged from 22.4–114.81 g l^–1, = 49.0 ag l^–1. Well water samples generally contained less than 10 g l^–1 arsenic. Arsenic concentrations in lake water exceeded U.S. Public Health Service recommended maximum concentrations (10 g l^–1) and many samples exceeded the maximum permissible limit (50 g l^–1). Fish accumulated arsenic from water but did not magnify it. Fish to water arsenic ratios ranged from 0.4–41.6. Black crappie (Pomoxis nigromaculatus) contained the highest arsenic concentrations (0.14–2.04 g g^–1 ), X = 0.7 g g^–1) while perch (Perca flavescens), muskellunge (Esox masquinongy) and largemouth bass (Micropterus salmoides) contained the lowest concentrations (0.02–0.13 g g^–1). Arsenic concentrations in fish do not appear to pose a health hazard for human consumers.     

Ultrastructure and osmoregulatory function of the kidney in larvae of the Persian sturgeon Acipenser persicus

The localization of Na(+) , K(+) -ATPase (NKA) and the ultrastructural features of kidney were examined in larvae of the Persian sturgeon Acipenser persicus (L 31-41 mm total length and 182·3-417·3 mg). Investigations were conducted through light and electron microscopy and through immunofluorescence for NKA detection. The kidney nephrons consisted of a large glomerulus and tubules (neck, proximal, distal and collecting), which connected to the ureters. Posteriorly, ureters extended and joined together into a thin-walled ureter terminal sac. Ultrastructurally, the glomerular cells (podocytes) possessed distinctive pedicels that extended to the basal membrane. The proximal tubule (PT) showed two different cells. The cells lining the anterior part of PT possessed apical tall microvilli (c. 2·7 μm), a sub-apical tubular system, a basal nucleus and dense granules. Posteriorly in the cells, the sub-apical tubular system and granules were absent and round mitochondria associated with basolateral infoldings were found; the apical microvilli were reduced. Distal and collecting tubular cells showed the typical features of osmoregulatory cells, i.e. well-developed basolateral infoldings associated with numerous mitochondria. No immunofluorescence of NKA was detected in the glomeruli. A weak immunostaining was observed at the basolateral side of the cells lining the neck and PT. A strong immunostaining of NKA was observed in the entire cells of the distal tubules, collecting tubules and in some isolated cells of the ureters. In all immunostained cells, the basolateral region showed a much higher fluorescence and nuclei were immunonegative. In conclusion, the epithelial cells of kidney tubules had morphological and enzymatic features of ionocytes, particularly in the distal and collecting tubules. Thus, the kidney of A. persicus larvae possesses active ion exchange capabilities and, beside its implication in excretion, participates in osmoregulation.     

Chloride and water secretion and absorption by the gills of the eel

Summary Perfusion experiments with the heart-gill preparation of the common eel, Anguilla vulgaris, are presented. Various concentrations of perfusion medium were used with eels from both sea water and fresh water. The external medium was sea water in the case of the sea water eels and fresh water in the other case.Perfusate was collected over a period of hours in each experiment and the exchange of chloride and water was studied.In the early experiments it was shown that normal permeability of the gills to these substances is small. The development of an extremely precise chloride method made it possible to evaluate the magnitudes of the exchanges in accurate quantitative terms.Experiments with fresh water as external medium showed that there is a small but perfectly significant change in chloride concentration in the perfusion medium as it passes through the gills so that it becomes more dilute. Reasons are adduced from which it is concluded that the dilution is due to the diffusion of water into the internal medium through the surface of the gills. This branchial water intake is calculated to be something like 40 cc. per kilogram of eel per day. This figure is in substantial agreement with Smith's measurements of the rate of urine formation in fresh water fishes.It was found that when the external medium is sea water, the chloride concentration of the internal medium decreases at a considerably faster rate than in the case where fresh water is present outside the gills. Experiments in which the external medium was analysed showed that chloride was being secreted into the concentrated sea water. It was found possible to measure volume changes in the external medium as well as the changes of chloride concentration in both mediums. These experiments demonstrated beyond doubt that a concentrated chloride solution is secreted by the gills in opposition to a large concentration gradient.Calculations made from several different bases showed that the measurements of volume and of chloride concentration consistently agree in yielding similar values for the volume and concentration of the chloride solution secreted by the gills of the sea water eel.It is shown that the magnitude of the concentration changes effected are related to the concentration of the internal medium used so that a small increase in the concentration of the perfusion medium results in a large increase in the amount of chloride concentration change occurring in the perfusion. Below a certain concentration of the internal medium the gills no longer give evidence of doing concentration work, and may even become permeable as evidenced by the internal medium increasing in concentration as it passes through the gills.Similarities between the activities of the gill of the sea water eel and of the normal mammalian kidney are pointed out. A rough calculation indicates that the work performed by the two organs is of the same order when computed in terms of grams of tissue involved.Experiments in which urea analyses were made showed that the gills of the eel are permeable to urea and that the amount of urea excreted through the gills as determined by direct measurement agrees quite well with Smith's figures for extfa-renal urea excretion.Possible objections to some of the conclusions are brought forth and their untenability demonstrated.Fellow of the National Research Council of America.     

On the fine structure of the aglomerular renal tubule in Lophius piscatorius

Summary The fine structure of the secretory tubules in the kidney of the aglomerular goose-fish (Lophius piscatorius) is described. The cells have a pyramidal shape, are joined together by multiple desmosomes, and share as main characteristics: abundant and deep inflections of the basal and lateral cell membranes; coated luminal plasma membranes forming multiple microvilli or a genuine brush border; moderate numbers of comparatively small mitochondria, usually unassociated with the basal and lateral plasma membrane specializations; numerous multivesicular bodies occuring in the apical cytoplasm; abundant large lysosome-like bodies in the intermediate regions of the cytoplasm; and comparatively poor development of endoplasmic reticulum and Golgi apparatus.The observations suggest that the cells perform both absorptive and secretory functions and are metabolically unusually active in autolytic and heterolytic work. Comparisons with other aglomerular species indicate that the ability for active secretory function is not necessarily dependent on a close association between plasma membrane and mitochondria; however, this ability does appear to require a markedly increased basal and/or lateral cell surface created by multiple invaginations of the plasma membrane. The abundance of desmosomes and associated structures appears to represent a unique structural specialization of the goosefish tubule, and indicates that the cells must be firmly anchored to one another to supply a rigid and mechanically continuous lining of the tubule. The multivesicular bodies probably represent endocytic vacuoles which fuse with apical vesicles and invaginate their outer membrane to form the internal vesicles; they appear to transform to ambilysosomes via a function as heterophagosomes and — later — combined hetero- and autophagosomes.Supported by grants from Karolinska Institutet, Fonden til Videnskabens Fremme and Konsul Johannes Fogh-Nielsen og fru Ella Fogh-Nielsens Légat. Part of the study was performed at the Zoological Station at Naples, Italy. The assistance of Mrs. Britt-Marie Karlsson is gratefully acknowledged.     

Effects of water deficit on N2(C2H2) fixation in cowpea and groundnut

The effect of water deficit on nodulation, N₂ fixation, photosynthesis, and total soluble sugars and leghemoglobin in nodules was investigated in cowpea and groundnut. Nitrogenase activity completely ceased in cowpea with a decrease in leaf water potential ( _leaf) from –0.4 MPa to –0.9 MPa, while in groundnut it continued down to –1.7 MPa. With increasing water stress, the acetylene reduction activity (ARA) declined very sharply in cowpea, but ARA gradually decreased in groundnut. Even with mild water stress ( _leaf of 0.2 MPa), nodule fresh weight declined 50% in cowpea partly due to a severe nodule shedding whereas nodule fresh weight declined in groundnut only when _leaf decreased by 1.0 MPa. No nodule shedding was noticed even at a higher stress level in groundnut. Photosynthesis and stomatal conductance were also more stable in groundnut than in cowpea under water stress. There was a sharp increase in total soluble sugars and leghemoglobin in the nodules of groundut with water stress, but no definite trend could be found in cowpea.     

华鲮泌尿系统组织学的初步观察

2004年3月至9月采用常规组织学方法对华鲮泌尿系统作了研究,结果表明：华鲮泌尿系统包括中肾、输尿管、膀胱。中肾由肾小体和肾小管组成,无皮质、髓质之分,有肾小体聚集现象;肾小管可分为颈段、第一近曲小管、第二近曲小管、远曲小管、集合管。肾中散布有大量淋巴髓样组织,还有甲状腺滤泡和斯坦尼氏小体,显然华鲮的肾脏是一个具有多种生理功能的复合器官。输尿管位于两肾叶腹侧,其上皮为似复层,缺黏膜下层,无纵肌,外膜甚薄。左右输尿管在后端合并,稍微扩大,形成膀胱,膀胱内壁具有发达的绒毛,绒毛表面为变移上皮。     

A comparison of anionic sites in the glomerular basement membranes from different classes of fishes

Summary Cationized ferritin was injected into the circulatory system of teleosts, the sea raven and Atlantic eelpout, and into elasmobranchs, the spiny dogfish and the skate, to determine if the glomerular basement membranes (GBM) from these different groups of fishes possess anionic binding sites similar to those present in the GBM of mammals. The distribution of cationized ferritin was the same in all fishes listed. Cationized ferritin was localized only in the GBM and the mesangial matrix. The regular distribution of cationized ferritin within the laminae rarae (60 nm intervals) was taken as evidence of the presence of anionic binding sites. Cationized ferritin did not bind to the glomerular capillary endothelium, nor was any of it localized at the base of the slit diaphragms of the foot processes of the podocytes. The distribution of binding sites in the GBM of these fishes is similar to that in another teleost, the winter flounder, and in a cyclostome, the hagfish.     

Ca2+ transport by opercular epithelium of the fresh water adapted euryhaline teleost,Fundulus heteroclitus

We examined transepithelial transport of Ca²⁺ across the isolated opercular epithelium of the euryhaline killifish adapted to fresh water. The opercular epithelium, mounted in vitro with saline on the serosal side and fresh water (0.1 mmol·l^–1 Ca²⁺) bathing the mucosal side, actively transported Ca²⁺ in the uptake direction; net flux averaged 20–30 nmol·cm^–2·h^–1. The rate of Ca²⁺ uptake varied linearly with the density of mitochondria-rich cells in the preparations. Ca²⁺ uptake was saturable, apparent K _1/2 of 0.348 mmol·l^–1, indicative of a multistep transcellular pathway. Ca²⁺ uptake was inhibited partially by apically added 0.1 mmol·l^–1 La³⁺ and 1.0 mmol·l^–1 Mg²⁺. Addition of dibutyryl-cyclic adenosine monophosphate (0.5 mmol·l^–1)+0.1 mmol·l^–1 3-isobutyl-l-methylxanthine inhibited Ca²⁺ uptake by 54%, but epinephrine, clonidine and isoproterenol were without effect. Agents that increase intracellular Ca²⁺, thapsigargin (1.0 mol·l^–1, serosal side), ionomycin (1.0 mol·l^–1, serosal side) and the calmodulin blocker trifluoperazine (50 mol·l^–1, mucosal side) all partially inhibited Ca²⁺ uptake. In contrast, apically added ionomycin increased mucosal to serosal unidirectional Ca²⁺ flux, indicating Ca²⁺ entry across the apical membrane is rate limiting in the transport. Verapamil (10–100 mol·l^–1, mucosal side), a Ca²⁺ channel blocker, had no effect. Results are consistent with a model of Ca²⁺ uptake by mitochondria rich cells that involves passive Ca²⁺ entry across the apical membrane via verapamil-insensitive Ca²⁺ channels, intracellular complexing of Ca²⁺ by calmodulin and basolateral exit via an active transport process. Increases in intracellular Ca²⁺ invoke a downregulation of transcellular Ca²⁺ transport, implicating Ca²⁺ as a homeostatic mediator of its own transport.Abbreviations DASPEI 2-(4-dimethylaminostyryl)-N-ethylpyridinium iodide - db-cAMP dibutyryl-cyclic adenosine monophosphate - FW fresh water - G _t transepithelial conductance - I _sc short-circuit current - IBMX 3-isobutyl-1-methylxanthine - SW sea water - TFP trifluoperazine - V _t transepithelial potential     

Effect of changes in water content on photosynthesis,transpiration and discrimination against 13CO2 and C18O16O in Pleurozium and Sphagnum

Photosynthetic gas exchange characteristics of two common boreal forest mosses, Sphagnum (section acutifolia) and Pleurozium schreberi, were measured continuously during the time required for the moss to dry out from full hydration. Similar patterns of change in CO₂ assimilation with variation in water content occurred for both species. The maximum rates of CO₂ assimilation for Sphagnum (approx. 7 mol m^–2 s^–1) occurred at a water content of approximately 7 (fresh weight/dry weight) while for Pleurozium the maximum rate (approx. 2 mol m^–2 s^–1) occurred at a water content of approximately 6 (fresh weight/dry weight). Above and below these water contents CO₂ assimilation declined. In both species total conductance to water vapour (expressed as a percentage of the maximum rates) remained nearly constant at a water content above 9 (fresh weight/dry weight), but below this level declined in a strong linear manner. Short-term, on-line ¹³CO₂ and C¹⁸O¹⁶O discrimination varied substantially with changes in moss water content and associated changes in the ratio of chloroplast CO₂ to ambient CO₂ partial pressure. At full hydration (maximum water content) both Sphagnum and Pleurozium had similar values of ¹³CO₂ discrimination (approx. 15). Discrimination against ¹³CO₂ increased continuously with reductions in water content to a maximum of 27 in Sphagnum and 22 in Pleurozium. In a similar manner C¹⁸C¹⁶O discrimination increased from approximately 30 at full hydration in both species to a maximum of 150 in Sphagnum and 90 in Pleurozium, at low water content. The observed changes in C¹⁸O¹⁶O were strongly correlated to predictions of a mechanistic model of discrimination processes. Field measurements of moss water content suggested that photosynthetic gas exchange by moss in the understory of a black spruce forest was regularly limited by low water content.