The fine structure of the hypothalamic secretory neurons of the White-crowned Sparrow,Zonotrichia leucophrys gambelii (Passeriformes: Fringillidae)

The fine structure of the parvocellular tuberal nuclei and that of the ependyma bordering the third ventricle in the basal hypothalamus of the White-crowned Sparrow, Zonotrichia leucophrys gambelii, have been investigated. Photoperiodically stimulated birds have been compared with birds held on short days. The perikarya of the neurons of the basal infundibular (tuberal) nucleus, and in part, of the more dorsal layers, contain dense-cored granules (1000-1500 A). The granules in the anterior part of the nucleus are somewhat larger than those of the posterior part. The synapses and the synaptic relationships of these cells are described. The single-layered ependyma of the third ventricle in the basal hypothalamus may be divided into the dorsal typical ependyma, the ventrolateral "glandular" ependyma, and the ventral "glandular" ependyma. Cells of the ventral ependyma lack apical cilia but bear a few microvillous processes. They have well-developed Golgi apparatus, conspicuous polysomes, and frequently dense, irregularly-shaped granules. Basal cytoplasmic processes extend ventrally to the outer surface of the median eminence. Photoperiodic stimulation appears to increase the numbers of apical protrusions of the cells in the ventral glandular ependyma and to cause an increase in size of the nerve cells of the basal infundibular nucleus.     

The tubero-infundibular neuron system: a component of the photoperiodic control mechanism of the white-crowned sparrow,Zonotrichia leucophrys gambelii

Summary To assess the roles of the hypothalamic neurosecretory and tubero-infundibular neuron systems in the mechanism of photoperiodic control of testicular growth in Zonotrichia leucophrys gambelii, midline electrolytic lesions were created in the median eminence, in its individual divisions, and in the region of the infundibular nucleus. Radiography was employed to facilitate the stereotaxic placement of lesions. Extensive damage to the neurosecretion-rich anterior division of the median eminence neither prevented the initiation of testicular growth in photosensitive, photostimulated birds nor induced gonadal regression in birds in which gonadal growth had previously been initiated by natural photoperiodic stimulation. Likewise, there was no impairment of the gonadotropin release mechanism when damage was restricted primarily to the neurosecretion-deficient posterior division of the median eminence. However, in birds in which the zone of damage included both divisions of the median eminence, the photoperiodic testicular response was abolished or markedly suppressed; if testicular growth had been initiated prior to electrocoagulation of the median eminence, testicular regression was induced. Gonadotropic insufficiency comparable to that induced by lesions in the median eminence was caused also by large lesions in the region of the infundibular nucleus or by smaller ones restricted primarily to its median, basal portion. Zones of damage that impair gonadotropic function thus correspond to (a) the chief nucleus of origin of the tubero-infundibular tract, (b) the principal route of entry of tubero-infundibular fibers into the anterior and posterior divisions of the median eminence, and (c) the terminal distribution of tubero-infundibular fibers in the eminential zones of neurovascular contact. These observations suggest that the tubero-infundibular neuron system is an essential component of the photoperiodic control mechanism of Z. leucophrys gambelii and are consistent with an hypothesis that assigns to this parvicellular neuron system the production of a neurohormone that regulates the release of a growth-stimulating gonadotropin from the pars distalis. The failure of anterior median eminence lesions to eliminate gonadotropin release is inconsistent with the hypothesis that the eminential component of the hypothalamic neurosecretory system is an essential element of the mechanism that controls photoperiodic testicular growth.This investigation was supported by a research grant (NB 01353) to Professor Donald S. Farner from the National Institutes of Health. A portion of the research was conducted while the author held the William T. Porter Fellowship of The American Physiological Society. I am grateful to Professor Farner for his suggestions and criticisms.This paper is based on a thesis submitted in partial fulfillment of the requirements for the Ph. D. in Zoophysiology at Washington State University. Portions of this study have been published previously in abstract form (F. E. Wilson and Farner, 1965).     

Regionale Strukturunterschiede im Nucleus infundibularis der Vögel (Passeriformes)

Zusammenfassung Der Nucleus infundibularis einiger Vögel (Zonotrichia leucophrys gambelii, Carduelis chloris, Passer domesticus) läßt eine deutliche regionale Untergliederung erkennen. Bei der nordamerikanischen Weißhauptammer (Zonotrichia leucophrys gambelii) verdienen diese aus Ansammlungen kleiner oder großer Nervenzellen bestehenden Kernabschnitte eine besondere Beachtung im Hinblick auf die stereotaktischen Eingriffe am Hypothalamus (P. B. Wilson) und deren Auswirkungen auf die lichtabhängige Gonadenreaktion (D. S. Farner).

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Regional differences in the structure of the infundibular nucleus in birds (Passeriformes)

Summary In the infundibular nucleus of some avian species (Zonotrichia leucophrys gambelii, Carduelis chloris, Passer domesticus) several subdivisions are described. In the Whitecrowned Sparrow, Zonotrichia leucophrys gambelii, this arrangement of small and large nerve cells seems to be important with respect to studies on hypothalamic lesions (P. E. Wilson) and their effect on the photoperiodically induced gonadal growth (D. S. Farner).

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Herrn Prof. Dr. Dr. h.c. Hugo Spatz gewidmet.

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Mit Unterstützung durch die Deutsche Forschungsgemeinschaft. Herrn Prof. Dr. D.S. Farner, Department of Zoology, University of Washington, Seattle, U.S.A., danke ich für einen Teil des Hirnmaterials (Research grant 5R 01 NB 06187 from the National Institutes of Health to Professor D. S. Farner).     

Das visuelle System von Zonotrichia leucophrys gambelii

Zusammenfassung Der Verlauf der Sehbahn und die Lokalisation der optischen Zentren wurden bei Zonotrichia leucophrys gambelii (nordamerikanischer Ammernfink) nach einseitiger Augenexstirpation mit den Techniken von Nauta-Fink-Heimer, Bodian und Bielschowsky erforscht. Die Untersuchungen erstreckten sich über einen Zeitraum von 3 bis zu 120 Tagen nach der Operation. Zonotrichia leucophrys gambelii besitzt ein für Vögel typisches visuelles System. Die Hauptmasse der Optikusfasern endet im Stratum griseum et fibrosum superficiale des Tectum opticum. Weitere zentrale Endgebiete sind: Nucleus geniculatus lateralis, Nucleus lateralis anterior, Nucleus superficialis synencephali, Nucleus externus, tectales Grau und Nucleus ectomamillaris als Kern der basalen optischen Wurzel. Alle Fasern werden im Chiasma opticum total gekreuzt, auch der Tractus isthmo-opticus, ein efferentes Bündel, dessen Ursprung im Nucleus isthmo-opticus zu finden ist. Dieses efferente Fasersystem läßt sich im Stumpf des durchtrennten N. opticus noch 120 Tage nach der Operation gut versilbern. Eine direkte Verbindung von Retina und Hypothalamus war lichtmikroskopisch nicht nachweisbar. Neurosekretorisch aktive Zellen des Hypothalamus können zwar einen engen räumlichen Kontakt mit den optischen Fasern haben, Synapsen sind aber an diesen Stellen nicht zu erkennen. Es werden passagere Opticusfasern beschrieben, die auf dem Weg zum Nucleus lateralis anterior und Nucleus superficialis synencephali den Hypothalamus durchsetzen.

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Neurohistological and experimental studies of the visual system in Zonotrichia leucophrys gambelii

Summary The course of the optic pathways and the positions of the optic centers have been investigated with unilaterally enucleated white-crowned sparrows, Zonotrichia leucophrys gambelii, using the techniques of Nauta-Fink-Heimer, Bodian, and Bielachowsky. The investigation involved birds examined 3–120 days after enucleation. The white-crowned sparrow has a typically avian visual system. The major bundles of optic fibers terminate in the stratum griseum et fibrosum superficiale of the tectum opticum. Further terminal areas are the nucleus geniculatus lateralis, nucleus lateralis anterior, nucleus superficialis synencephali, nucleus externus, the tectal gray, and the nucleus ectomamillaris of the basal optic root. There is a complete crossing of all fibers in the chiasma, including those of the tractus isthmo-opticus, an efferent bundle with its origin in the nucleus isthmo-opticus. This efferent fiber system can be well impregnated in the stump of the sectioned optic nerve up to 120 days after the operation. No direct connection between the retina and hypothalamus could be demonstrated by light microscopy. Hypothalamic neurosecretory cells can occur in close contact with optic fibers but no synapses have been recognized. Some optic fibers pass through the hypothalamus enroute to the nucleus lateralis anterior and the nucleus superficialis synencephali.

Mit Unterstützung durch die Deutsche Forschungsgemeinschaft. Herrn Prof. Dr. D.S. Farner, Department of Zoology, University of Washington, Seattle, Wash., danke ich für die Förderung dieser Studien (National Institutes of Health Research Grant No. 5 ROI NB 06187 to Professor D. S. Farner).     

The fine structure of the hypothalamic secretory neurons of the White-crowned Sparrow,Zonotrichia leucophrys gambelii (Passeriformes: Fringillidae)

Summary The fine structures of the neurons and neuropils of the magnocellular supraoptic nucleus and the parvocellular nuclei of the rostral hypothalamus, including the suprachiasmatic and medial, lateral and periventricular preoptic nuclei, and the neuronal apparatus of the organum vasculosum laminae terminalis, have been examined in the male White-crowned Sparrow, Zonotrichia leucophrys gambelii, by correlated light and electron microscopy.The magnocellular supraoptic nucleus is characterized by large neurosecretory perikarya which contain a well developed Golgi complex and densecored granules 1,500–2,200 Å in diameter. The neuropil displays axons, dendrites and glial fibers. Some axonal profiles contain dense-cored vesicles 800–1,000 Å in diameter and clear vesicles 500 Å in diameter. Axo-somatic and axo-dendritic synapses are conspicuous in this nuclear region.The suprachiasmatic nucleus is characterized by an accumulation of small neurons with moderately developed cellular organelles and some dense-cored granules, approximately 1,000 Å in diameter. The profiles of axons within the neuropil contain dense-cored granules 800–1,000 Å in diameter and clear vesicles 500 Å in diameter.The neurons of the medial preoptic nucleus are relatively large and exhibit well developed cellular organelles and dense-cored granules 1,300 to 1,500 Å in diameter. Granular materials are formed within the Golgi complex. The medial preoptic nucleus is rich in secretory perikarya.Occasionally, neurons with granules 1,500–2,200 Å in diameter are encountered in the lateral preoptic and periventricular preoptic nuclei. They may be considered as scattered elements of the magnocellular (supraoptic and paraventricular) system.The organum vasculosum laminae terminalis consists of three layers, i.e., ependymal, internal and external zones, and exhibits a vascular arrangement similar to that of the median eminence. The perikarya of the parvocellular neurons and their axons in the internal zone contain numerous secretory granules ranging from 1,300 to 1,500 Å in diameter.This investigation was supported by Grant No. 5R040 Japan-U.S. Cooperative Science Program of the Japan Society for the Promotion of Science to Professor H. Kobayashi and Professor S.-I. Mikami, by a Scientific Research Grant No. 56019 from the Ministry of Education of Japan to S.-I. Mikami, by support from the Deutsche Forschungsgemeinschaft (Schwerpunktprogramm Biologie der Zeitmessung) to Prof. A. Oksche and by Grant No. GF 33334, U.S.-Japan Cooperative Science Program of the National Science Foundation to Prof. D.S. Farner.Herrn Professor Dr. Dres h.c. Wolfgang Bargmann zu seinem 70. Geburtstag am 27. Januar 1976 gewidmet.     

Photoperiodic and osmotic influences on the ultrastructure of the hypothalamic neurosecretory system of the White-crowned sparrow,Zonotrichia leucophrys gambelii

Summary An attempt was made to correlate functional changes in the neurohypophysis of the White-crowned Sparrow, Zonotrichia leucophrys gambelii, with morphologic features on the light- and electron-microscope levels. The aldehyde-fuchsin-staining anterior median eminence possesses essentially the same ultrastructural features as the non-staining posterior median eminence. The axon terminals are characterized by the presence of a large number of small vesicles (approximately 400 Å in diameter) and occasional electron-dense granules. The more-or-less depleted anterior median eminence occasionally evident in the photosensitive bird showing testicular development is indistinguishable ultrastructurally from the more intensely staining median eminence generally characteristic of the photorefractory bird. In the median eminence, stainability and functional state do not seem to be correlated with changes in the type, size or number of vesicles. A slight increase in the number of granules was noted in the photorefractory bird but this was considered insufficient basis to account for differences in stainability.The pars nervosa, on the other hand, responded to osmotic stimuli (saline drinking water) by loss of stainability and decrease in numbers of elementary neurosecretory granules. Small vesicles are also present in the pars nervosa axon terminals, but are intermingled with neurosecretory granules in normal birds. Acute-osmotic birds, however, had axon terminals almost entirely occupied by small vesicles.It is to be emphasized that the pars nervosa and the median eminence are two structurally very different regions of the neurohypophysis. The basis for aldehyde-fuchsin staining in the median eminence appears to differ from that in the pars nervosa. The implications of these findings are considered in regard to hypothalamic control over gonadotropic activity in the White-crowned Sparrow.Dedicated to Professor Dr. W. Bargmann in honor of his 60th birthday.This investigation was supported by grant GB-2484 from the National Science Foundation to Professor Bern, grant GB-2819 from the National Science Foundation to Professor Mewaldt, and grant NB-01353 from the National Institutes of Health to Professor Farner. The authors wish to express their appreciation of the technical assistance of Mrs. Irene Brown, Mr. John Butchart, Sally S. Kibby, Mrs. Carol Nicoll, and Mr. John Striffler. Mrs. Emily Reid kindly prepared the histograms.     

Observations on the uptake of 35sulfur by the hypothalamo-hypophysial system of the White-crowned sparrow (Zonotrichia leucophrys gambelii) following intraventricular injection of 35S DL-cysteine

Summary By use of a stereotaxic instrument it has been consistently possible to introduce ³⁵S DL-cysteine into the third ventricle of the White-crowned Sparrow, Zonotrichia leucophrys gambelii. Such injections are followed within six hours by a reproducible pattern of accumulation of the isotope in the hypothalamic nuclei around the third ventricle. The nucleus supraopticus, the nucleus paraventricularis magnocellularis, the lamina terminalis, and the area ependymalis vasculosa consistently showed the greatest accumulation of the isotope. In the supraoptic and paraventricular nuclei, conspicuous accumulation of the isotope was consistently observed in association with cells containing aldehyde-fuchsin positive material. The supraoptico-hypophysial tract, the pars nervosa, and the palisade layer of the zona externa of the median eminence showed pronounced accumulations of the isotope. These accumulations were, to a great extent, associated with aldehyde-fuchsin positive neurosecretory material.Dedicatet to Professor Dr. W. Bargmann in honor of his 60th birthday.This investigation was conducted under Contract No. DA 18-108-AMC-127 (A) US Army Chemical Center Procurement Agency, Edgewood, Maryland, with Professor Farner as principal investigator.     

Über Rezeptorentypen in der Retina von Zonotrichia leucophrys gambelii

Zusammenfassung In der Retina des photobiologisch interessanten nordamerikanischen Ammernfinken, Zonotrichia leucophrys gambelii, können mit dem Lichtmikroskop vier verschiedene Rezeptorentypen unterschieden werden: Stäbchen, Einzelzapfen, Doppelzapfen und Doppelzapfen mit stäbchenartigem Außenglied. In der Netzhautperipherie sind diese Sinneszellen besonders groß, in der in jedem Auge nur einmal angelegten Fovea centralis dagegen so klein, daß ihre Klassifizierung auf lichtmikroskopischer Basis nicht mehr möglich ist. Die Doppelzapfen mit stäbchenartigen Außengliedern muß man als eine Besonderheit der Retina von Zonotrichia leucophrys gambelii ansehen. Ob diese Rezeptorenart bei der Auslösung der bekannten photobiologischen Phänomene (Farner u.a.) eine besondere Rolle spielt, ist ungewiß.

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Receptor types in the retina of Zonotrichia leucophrys gambelii

Summary Rods, single cones, double cones, and double cones with a rod-like outer segment, are four kinds of receptors identified with the light microscope in the retina of the White-crowned Sparrow, Zonotrichia leucophrys gambelii. The photoreceptor cells are especially large in the peripheral part of the retina, but are too small to be grouped in types in the fovea centralis. The double cones with the rod-like outer segment are considered a special feature of the retina of Zonotrichia leucophrys gambelii. It is not known whether the latter type of receptor plays a role in the photobiological phenomena described by Farner et al.

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Aves, Passeriformes, Fringillidae.

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Teil einer medizinischen Doktorarbeit.

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Mit Unterstützung durch die Deutsche Forschungsgemeinschaft. Herrn Prof. Dr. D. S. Farner, Department of Zoology, University of Washington, Seattle, USA, danke ich für die Überlassung des Augenmaterials (Research grant 5 R 01 NB 06187 from the National Institutes of Health to Prof. Farner) und für wertvolle Anregungen.

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Bei allen rein morphologischen Klassifizierungsversuchen an den Netzhautrezeptoren darf nicht übersehen werden, daß der Natur des Photopigmentes funktionell eine größere Bedeutung zukommt als dem Strukturtyp des Außengliedes. Die einzelnen Photopigmentarten sind nicht strikt an bestimmte morphologische Außengliedtypen gebunden (vgl. Dodt, 1962).     

Monoamine fluorescence in the median eminence of the Japanese quail,Coturnix coturnix japonica,following medial basal hypothalamic deafferentation

Summary Monoamine fluorescence was examined in the ventral hypothalamus of the Japanese quail, Coturnix coturnix japonica after medial basal hypothalamic deafferentation. In sham-operated control birds, numerous yellow-green fluorescent fibers were observed in the median eminence and the nucleus tuberis. In the area of the paraventricular organ, a number of fluorescent fibers and cell bodies were observed. In birds with deafferented hypothalami, fluorescence disappeared both in the median eminence and the nucleus tuberis. In the area of the paraventricular organ, which was within the area of deafferentation, fluorescence of neuronal perikarya did not change, but fluorescent fibers decreased markedly in number. Disappearance of monoamine fluorescence in the median eminence and the nucleus tuberis is discussed in relation to the tanycyte absorptive function and gonadal development.Supported by Grants from the Ministry of Education to Professors T. Bando and H. Kobayashi, and a Grant from the Ford Foundation to Prof. H. Kobayashi.     

The ACTH-immunoreactive system in the brain of the white-crowned sparrow,Zonotrichia leucophrys gambelii (Passeriformes,Emberizidae)

Summary The ACTH-immunoreactive (ir) system of the avian brain is particularly conspicuous in the male white-crowned sparrow (Zonotrichia leucophrys gambelii). The irperikaryal population is concentrated mainly within the tuberal region, projecting primarily in a dorsal direction: (i) into the striatum; (ii) into rostral diencephalic, septal, hyperstriatal, and thalamic areas; and (iii) into dorsal and ventral areas of the brain stem. Ir-fibers seemingly contact local non-immunoreactive neurons mainly in the accumbens nucleus, septum, dorsal thalamic nuclei, infundibular and interpeduncular nuclei, and in the rostral diencephalon. Neurohemal zones are not supplied by ACTH-ir terminals. Immunocytochemical problems arising from the complexity of the proopiomelanocortin molecule and its derived peptide components are discussed in relation to phylogenetically directed studies, and contradictory results.Dedicated to Professor Dr. T.H. Schiebler on the occasion of his 65th birthday     

Immunocytochemical distribution of corticotropin-releasing factor in the brain and hypophysis of larval Bufo arenarum; effect of KClO4 during early development

The maturation of the corticotropin-releasing factor (CRF) neuronal system was evaluated by immunocytochemistry and morphometry in Bufo arenarum, during spontaneous metamorphosis and in tadpoles with inhibited thryroid function. The first appearance of CRF immunoreactive fibers was at the end of premetamorphosis (stage VIII). These fibers were found in small numbers and weakly stained in the median eminence and infundibular stalk. With the advance of larval development, CRF-like material stained intensely and tended to aggregate in the external zone of the median eminence. At climax stages, immunoreactive fibers and perikarya (weakly stained) were identified in the interpeduncular nucleus and in the dorsal infundibular nucleus. Morphometric and immunocytochemical results indicate that the maturation of the CRF neuronal system in Bufo arenarum occurs just before metamorphic climax, coinciding with high levels of thyroid and steroid hormones. We have also found that in larvae with inhibited thyroid function, the CRF neuronal system is able to develop, and that thyroid hormone could exert a negative feedback control on the synthesis of CRF.     

Cholinesterases in the hypothalamo-hypophysial neurosecretory system of the White-crowned Sparrow,Zonotrichia leucophrys gambelii

Summary The distribution of cholinesterases in hypothalamo-hypophysial neurosecretory system of the White-crowned Sparrow has been examined histochemically. The perikarya of the neurosecretory cells of the paraventricular and supraoptic nuclei have a high acetylcholinesterase activity. Acetylcholinesterase activity also occurs in the cells of the infundibular nucleus. The proximal parts of the axons of the cells of the neurosecretory and infundibular nuclei have strong acetylcholinesterase activity and weak non-specific cholinesterase activity. In the median eminence, the activity of acetylcholinesterase is strongest in the palisade layer. In the pars nervosa, there is definite, although weak, acetylcholinesterase activity.This investigation was supported by grants from the National Institutes of Health to Professor Farner (B-1353) and to Dr. Kobayashi (A-3678).     

Electron microscopic and experimental studies of the pineal organ in the white-crowned sparrow,Zonotrichia leucophrys gambelii

Summary The structure of the pineal organ of Zonotrichia leucophrys gambelii, as revealed by light- and electron-microscopy, resembles that of Passer domesticus (Oksche and Kirschstein, 1969; Ueck, 1970). The typical cellular element is the pinealocyte with certain basic structural features of the pineal photoreceptors of lower vertebrates (see Oksche, 1971). However, instead of the characteristic, cone-like outer segments, there are, as in other species of birds, only bulbous cilia with ectopic whorls of lamellae. This structure of the outer segment is, in a sense, contrary to the demonstration of synaptoid contacts, numerous unmyelinated, and occasional myelinated nerve fibers by electron microscopy. In Nissl preparations it was possible to demonstrate typical nerve cells. The pinealocytes of Z. l. gambelii are secretory; their Golgi complex forms granulated vesicles (800–1,400 Å in diameter) that belong to the group of granular inclusions characteristic of monoamines. Autonomie nerve fibers course within the connective tissue capsule of the pineal organ. In many pinealocytes of Z. l. gambelii, the granular endoplasmic reticulum contains extensively expanded cisternae that are filled with a flocculent material and closely associated with bundles of filaments. In a number of cases such loop-like structures are selectively stainable with aldehyde fuchsin. It was not possible to demonstrate specific secretory activity in the supporting cells. Extirpation of the pineal organ in Z. l. gambelii had no definitely detectable influence on the photoperiodic control of testicular growth.Aves, Passeriformes, Fringillidae.Supported by grants from the Deutsche Forschungsgemeinschaft to Professor Oksche and by the National Science Foundation (GB 11905) to Professor Farner. A part of this investigation was effected while Professor Kobayashi held a Visiting Professorship at the University of Giessen.     

Seasonal changes in the blood composition of captive and free-living White-crowned Sparrows

Summary Seasonal changes in several blood components (cholesterol, phospholipid phosphorus, glyceride glycerol, free fatty acids, and calcium), hematocrit, and body mass were studied in captive and free-living groups of White-crowned Sparrows (Zonotrichia leucophrys gambelii) over a 2-year period. Cholesterol, phospholipid phosphorus, and glyceride glycerol levels were correlated with body mass and all of them changed in parallel during the year (Table 2 and Figs. 1–3). These lipids were elevated during premigratory and migratory periods, minimal during the summer breeding period, and reduced during periods of body molt. Concentrations of them were consistently higher in captive birds than in free-living ones. Free fatty acid levels were highly variable and not correlated with levels of other blood lipids or with body mass (Fig. 4). However, they too increased during premigratory periods. On the other hand, they were consistently higher in free-living sparrows than in captives. Plasma calcium was relatively constant at 3–5 mEq/l between July and the following March (Fig. 5). It increased during the spring, but earlier than preparations for migration by 2–3 weeks. It was also elevated in egg-laying females. The hematocrit rose during the vernal migratory period, but not during the autumnal one; was minimal in breeding birds; and declined during periods of body molt (Fig. 6). Calcium and hematocrit levels were similar in captive and free-living birds. It appears that captive populations of White-crowned Sparrows generally provide relibale information concerning changes in blood composition that are taking place concurrently in the field.This investigation was done to satisfy partially the requirements for the Ph.D. degree at Washington State University by deGraw and Kern. The project was supported by an NIH Training Grant (GM01276) from the National Institute of General Medical Sciences     

The effect of corticosterone on standard metabolic rates of small passerine birds

Summary Resting metabolic rates of Gambel's white-crowned sparrows (Zonotrichia leucophrys gambelii) and pine siskins (Carduelis pinus) were evaluated at thermoneutral temperatures before and after administration of corticosterone (B) at physiological doses. There was no effect of B on basal metabolic rate of either species, but nocturnal metabolic rate varied significantly less over the 3-h period of measurement in B-treated sparrows and siskins than in control birds. These results, coupled with observations of caged birds, suggest that corticosterone has no direct effect on avian resting metabolism but does reduce the responsiveness of birds to external stimuli and thus promotes nocturnal restfulness.Abbreviations B corticosterone - VO ₂ rate of oxygen consumption - T ₃ tri-iodothyromine - T ₄ tetra-iodothyronine, thyroxine     

Fine structure of the vessels of the hypophysial portal system of the White-crowned Sparrow,Zonotrichia leucophrys gambelii

Summary The angioarchitecture of the hypophysial portal system of the White-crowned Sparrow, Zonotrichia leucophrys gambelii, was investigated by electron microscopy in conjunction with light microscopy of serial thick sections.The small arteries or arterioles supplying the primary capillary plexus of the median eminence have the typical form of arterioles.The vessels of the primary capillary plexus, on the surface of the median eminence, with their many fenestrations and pinocytotic vesicles, are typical of the form of capillary usually found in other endocrine organs.The portal vessels in the pars tuberalis have wide perivascular spaces between the basement membrane of the endothelium and that of parenchymal lobules of the pars tuberalis. These perivascular spaces are occupied usually by the perivascular cells, but sometimes contain erythrocytes.The endothelial cells of the portal vessels often protrude into vascular lumen giving the appearance of valve-like structures. These may have a role in the regulation of blood flow.The endothelial cells of the portal vessels are invested by a definitive basement membrane and by the cytoplasm of pericytes which are oriented spirally to the longitudinal axes of the vessels. The pericytes may have a function in the mechanical support of the vascular wall and a contractile function that might regulate the flow rate of blood.The investigation reported herein was supported by a scientific research grant (No. 291049) from the Ministry of Education of Japan to Prof. Mikami; by a grant from the Deutsche Forschungsgemeinschaft to Prof. Oksche; by a grant (5 ROI-NB 06817) from the National Institutes of Health to Prof. Farner, and by a research grant (5 ROI-HE 07240 NEUA) from the National Institutes of Health to Prof. Vitums.     

The Monoaminergic Paraventricular Organ in the Teleost Ictalurus nebulosus LeSueur,with Special Reference to Its Vascularization

Specific, fluorescent, subependymal perikarya were found in the pars anterior of the paraventricular organ (PVOpa), in the nucleus recessus lateralis (NRL) and in the nucleus recessus posterioris (NRP). No fluorescent perikarya were present in the nucleus lateralis tuberis (NLT). Fluorescent nerve tracts connect the PVOpa and the NRL with the NRP, and interconnect the paired NRP. The nucleus preopticus (NPO) and the NLT receive a large input of aminergic nerve fibers. The monoaminergic nuclei are well vascularized, and their vascular plexes seem to be connected. A capillary plexus is situated dorsal to the NRP and exhibits no contact with the pituitary. It is surrounded by the prominent fluorescent tracts connecting the aminergic nuclei.     

Acetylcholinesterase in der Pars distalis von Zonotrichia leucophrys gambelii (Aves)

Zusammenfassung In beiden Lobi der Pars distalis photosensitiver Zonotrichia leucophrys gambelii-Männchen bewirkt die photoperiodische Stimulation unter Langtagbedingungen das Auftreten von Acetylcholinesterase, die, solange die Vögel unter Kurztagbedingungen gehalten wurden, nicht oder nur in geringer Menge vorhanden war. Das Enzym ist auf PAS-positive Zellen beschränkt, doch nicht in allen von ihnen anzutreffen. Nach dem Erreichen eines Maximums zwischen Tag 31 und Tag 52 sinkt der AChE-Gehalt wieder und nähert sich nach 80 Tagen dem Ausgangsstadium. Der Parallelismus zwischen den Testesgewichten und der AChE-Aktivität läßt vermuten, daß die AChE-Zellen gonadotropes Hormon bilden.

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Acetylcholinesterase in the Pars distalis of Zonotrichia leucophrys gambelii (Aves)

Summary Photoperiodic stimulation of photosensitive male white-crowned sparrows, Zonotrichia leucophrys gambelii, causes the appearance of acetylcholinesterase activity in the cephalic and caudal lobes of the pars distalis. In photosensitive birds held on short daily photoperiods little or no activity can he demonstrated histochemically. The enzyme is restricted to PAS-positive cells. After attaining a maximum between 31 and 52 days after the beginning of photoperiodic stimulation (20 hours of light per day), AChE activity declines and after 80 days returns approximately to the initial level of short-day birds (eight hours of light per day). The correlation between the increase in weight of the testes and AChE activity, and other considerations, suggest that these AChE cells must produce gonadotropic hormones. Our observations are generally consistent with the results of the biochemical studies of Russell (1968) on the AChE activity in the pars distalis of the same species.

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Mit Unterstützung durch National Institutes of Health (Grant 5R01 NB 06187, Prof. Farner, Principal Investigator).

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Institut für Haustierkunde der Universität Kiel (Direktor: Prof. Dr. Dr. h. c. Wolf herre).     

Topographische Verteilung der Monoaminfluoreszenz im Zwischenhirn-Hypophysensystem von Carduelis chloris und Anas platyrhynchos

Zusammenfassung Im Hypothalamus von Grünfink (Carduelis chloris) und Ente (Anas platyrhynchos) zeigen Neurone und Neuropilstrukturen des Nucleus infundibularis und Nucleus ventromedialis eine grüngelbe Fluoreszenz (Methode von Falck und Owman). Der sog. Basiskern des Nucleus infundibularis zeichnet sich bei beiden Vogelarten durch eine wesentlich stärkere Fluoreszenzintensität aus als die beiden gleichmäßig leuchtenden dorsalen Auflagerungen. In der Eminentia mediana von Grünfink und Ente sind in einer subependymalen Zone feine fluoreszierende Granula zu beobachten. Die Palisadenschicht weist nur einen schwach leuchtenden Saum auf; lediglich bei zwei von 65 untersuchten Grünfinken ließ sich hier ein stärkerer Fluoreszenzstreifen darstellen. Die Fluoreszenzphänomene sind in der mit Paraldehydfuchsin elektiv färbbaren Pars anterior (rostralis) der Eminentia mediana stärker als in der Pars posterior (caudalis). Vom rostralen Abschnitt der Eminentia mediana und vom Nucleus infundibularis lassen sich fluoreszierende Faserzüge bis zur lateralen Zellgruppe des Nucleus supraopticus verfolgen; der Ursprung dieser Bahn ist unbekannt. Die nicht fluoreszierenden Perikaryen des Nucleus supraopticus sind in einen stark leuchtenden Faserfilz eingebettet. Die Ergebnisse der Reserpinbehandlung und der mikrospektrographischen Bestimmung (Maximum des Emissionsspektrums bei 485 nm) sprechen dafür, daß für die Fluoreszenz der kleinzelligen Tuberkerne Monoamine (Dopamin/ Noradrenalin) verantwortlich sind. Eine fluoreszenzmikroskopische Unterscheidung von Dopamin und Noradrenalin war im Zwischenhirn-Hypophysensystem von Carduelis chloris und Anas platyrhynchos bisher nicht möglich.

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Distribution of monoamine fluorophores in the hypothalamo-hypophysial system of Carduelis chloris and Anas platyrhynchos

Summary Neurons and neuropile structures of the infundibular and ventromedial nuclei of the hypothalami of the greenfinch (Carduelis chloris) and the mallard (Anas platyrhynchos) displayed a green-yellow fluorescence with the method of Falck and Owman. The fluorescence of the basal layer of the infundibular nucleus in both of these species is significantly stronger than that of the middle and dorsal layers of this nucleus. Fine fluorescent granules can be observed in a subependymal zone in the median eminence of both species. The palisade layer shows only a weakly fluorescent margin; only in two of 65 greenfinches investigated was it possible to demonstrate here a stronger fluorescent band. The fluorescence was stronger in the anterior median eminence, which is aldehydefuchsin positive, than in the posterior median eminence. From the anterior part of the median eminence and from the infundibular nucleus, it was possible to trace fluorescent fibers to the lateral cell groups of the supraoptic nucleus; the origin of this tract is unknown. The nonfluorescent perikarya of the supraoptic nucleus lie in a meshwork of fluorescent fibers. The results of treatment with reserpine and microspectrographic analysis (maximum emission at 485 nm) suggest that the fluorescence of the tuberal nuclei is attributable to monoamines (dopamine and norepinephrine). A differentiation of dopamine and epinephrine in the hypothalamo-hypophysial system of Carduelis chloris and Anas platyrhynchos has thus far not been possible by fluorescence microscopy.

Mit Unterstützung durch die Deutsche Forschungsgemeinschaft. Herrn Prof. D. S. Farner, Seattle, danke ich für freundliche Anteilnahme am Fortgang dieser Studien.     

Training White-crowned Sparrows,Zonotrichia leucophrys gambelii,in Self-Selection of Photoperiod1

24 Individuen der Neuweltammer Zonotrichia leucophrys gambelii wurden darauf dressiert, den Licht-Dunkel-Wechsel ihrer Umwelt zu steuern, indem sie den Licht-Stromkreis selbst bedienten. Die Dressur bestand darin, daß man die sonst im Dunkeln gehaltenen Vögel mit einer schwachen Lichtquelle auf eine Sitzstange lockte, die so auf einem Mikroschalter gelagert war, daß beim ersten Ansprung das Licht anging. Bei allen Versuchsvögeln gelang die Dressur.