Osteopathy of the pectoral and pelvic limbs including pentadactyly in a young Kestrel (Falco t. tinnunculus)

Summary A five and a half weeks old female Kestrel exhibiting osteopathy of the pectoral and pelvic limbs, including symmetrical hyperdactyly, was investigated in order to clarify the pattern of the involved anatomical alterations and the possible causes of this developmental malformation. In the pectoral limb it consisted of a triplication of the alular digit, in the pelvic limb of a duplication of digit I. The live young Kestrel was observed for a period of two weeks to ascertain that it was unable to fly or procure prey on its own. After its death radiographs were taken and, apart from an eidonomic inspection including the wing claws, a detailed macroscopic dissection of the musculature of the pectoral and pelvic limbs was carried out using the in-water-method. Consecutive dissection steps were documented by a series of photographic slides. The relevant musculature, particularly that of the supernumerary digits, was recorded in proportional drawings. Subsequent to maceration of the limbs the isolated bones were reassembled according to the radiographs and also documented by means of photographs and drawings. This anatomical approach produced a reliable reconstruction of the skeletomuscular apparatus of the hyperdactylous limb parts. The eidonomic inspection revealed that at least young Kestrels may have two (alular and major digit) or even three wing claws per side. The proximal skeletal elements of both pectoral and pelvic limb were more sturdily built than in a typical Kestrel of comparable age. The proximal elements of the pelvic limb, the tarsometatarsus in particular, were shorter than in a typical Kestrel. In addition, the long axis of the tarsometatarsus was laterally bent in the transverse plane so that its proximal articular surfaces were medially inclined. Duplication of the cutaneous and osseous elements in the foot was accompanied by a duplication of some of the muscular and/or tendinous elements supplying digit I proper and the accessory digit I'. There were left-to-right asymmetries of the pedal musculature concerned. In contrast, the two accessory alular digits of each wing were almost completely devoid of musculature. Apart from atypical points of origin or insertion of the remaining distal musculture, left-to-right asymmetries and the two accessory alulae per wing, presumably, affected aerodynamic properties and resulted in flightlessness.A juvenile Kestrel of similar age and without hyperdactyly was dissected for comparison. In addition, the external appearance of the carpometacarpal region of two female Silkies, an obligatory pentadactylous breed of domestic fowl, was inspected and the skeletal parts of their pectoral and pelvic limbs compared with those of the hyperdactylous Kestrel. Our results and a literature review suggest that the symmetrical hyperdactyly in the Kestrel bears striking similarities to the hereditary hyperdactyly observed in certain breeds of domestic fowl. In addition, there is a striking resemblance between the hyperdactyly of the young Kestrel and certain forms of hyperdactyly induced by molecular genetical experiments of other authors on chicks. Comparison with these results taken from the literature suggest that the symmetrical hyperdactyly in the young Kestrel, including the alterations of the proximal skeletal elements, is caused by an unusually early expression of the Hoxd-11 gene group during embryological development. Most likely, this gene group is situated on the 2^nd chromosome in birds just as it is in mammals.

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Osteopathie der Vorder - und Hinterextremitäten, verbunden mit einer symmetrischen Hyperdactylie bei einem jungen Turmfalken (Falco tinnunculus)

Zusammenfassung Ein fünfeinhalb Wochen alter weiblicher Turmfalke mit einer Osteopathie der Vorder- und Hinterextremitäten, verbunden mit einer symmetrischen Hyperdactylie, wurde untersucht, um das Muster der beteiligten anatomischen Veränderungen und die möglichen Ursachen dieser Mißbildung zu erkennen. An der Vorderextremität bestand sie aus einer Verdreifachung des Alula-Fingers, an der Hinterextremität aus einer Verdoppelung der Zehe I. Die Beobachtung des lebenden jungen Turmfalken während eines Zeitraumes von zwei Wochen ergab, dass er flugunfähig war und keine Beute schlagen konnte.Nach seinem Tod und einer Inspektion der Eidonomie, einschließlich der Flügelkrallen, wurden Röntgenaufnahmen angefertigt. Danach folgte eine detaillierte makroskopische Präparation der Flügel- und Beinmuskulatur unter Verwendung der In-Wasser-Methode. Die einzelnen Präparationsschritte wurden anhand von Dia-Serien dokumentiert. Die relevante Muskulatur, insbesondere die der überzähligen Digiti, wurde in proportionsgetreuen Zeichnungen festgehalten. Nach Mazeration der Extremitäten wurden die Einzelknochen, entsprechend den Röntgenbildern, wieder zusammengesetzt und ebenfalls mit Fotografien und Zeichnungen dokumentiert. Dieser anatomische Ansatz lieferte eine zuverlässige Rekonstruktion des Skelett-Muskel-Apparates der hyperdactylen Extremitätenanteile.Die eidonomische Inspektion ergab, dass zumindest junge Turmfalken zwei (Digitus alularis und majoris) oder sogar drei Flügelkrallen haben können. Die proximalen Skelettelemente der Vorder- und Hinterextremität waren deutlich robuster gebaut als bei einem typischen Turmfalken vergleichbaren Alters. Die proximalen Elemente der Hinterextremität, insbesondere der Tarsometatarsus, waren kürzer als bei einem typischen Turmfalken. Darüberhinaus war die Längsachse des Tarsometatarsus in der Transversalebene laterad gekrümmt, so dass sich seine proximalen Gelenkflächen schräg mediad richteten. Entsprechend der kutanen und knöchernen Doppelbildungen des Fußes waren auch einige der Muskeln und Sehnen doppelt vorhanden, welche die eigentliche erste Zehe und die akzessorische erste Zehe versorgten. Es traten Rechts-/Links-Asymmetrien der betreffenden Muskulatur auf. Im Gegensatz dazu waren die beiden akzessorischen Alula-Finger jedes Flügels fast vollständig ohne Muskulatur. Abgesehen von atypischen Ursprungs- und Insertionspunkten der verbleibenden distalen Muskulatur, beeinträchtigten Rechts-/Links-Asymmetrien und die beiden akzessorischen Alulae pro Flügel vermutlich die aerodynamischen Eigenschaften und führten zur Flugunfähigkeit.Ein junger Turmfalke ähnlichen Alters ohne Hyperdactylie wurde zum Vergleich präpariert. Zusätzlich wurde die äußere Erscheinung der Carpometacarpal-Region zweier Seidenhühner, einer obligatorisch pentadactylen Hühnerrasse, inspiziert und die Skelettelemente ihrer Vorder- und Hinterextremitäten mit denen des hyperdactylen Turmfalken verglichen. Unsere Ergebnisse und ein Überblick der Literatur lassen auffallende Übereinstimmungen zwischen der symmetrischen Hyperdactylie des jungen Turmfalken und der erblichen Hyperdactylie bestimmter Hühnerrassen erkennen. Darüberhinaus besteht eine auffallende übereinstimmung zwischen der Hyperdactylie des jungen Turmfalken und bestimmten Formen der Hyperdactylie, welche von anderen Autoren durch molekulargenetische Experimente an Hühnerküken induziert wurden. Ein Vergleich mit diesen Ergebnissen aus der Literatur legt nahe, dass die symmetrische Hyperdactylie des jungen Turmfalken, einschließlich der Veränderungen der proximalen Skelettelemente, durch eine ungewöhnlich frühe Expression der Hoxd-11 Gengruppe im Laufe der Embryonalentwicklung verursacht wurde. Sehr wahrscheinlich ist diese Gengruppe bei Vögeln auf dem zweiten Chromosom lokalisiert — ebenso wie bei Säugetieren.

     

猕猴声带肌运动神经终末特点的研究

本文通过银法对猕猴声带肌运动神经终末和运动终板的形态进行了观察。发现声带肌与四肢肌不同，除肌纤维纤细，排列不甚紧密度，其神经支配比较丰富，运动终板数目较多，形态多姿。本观察对研究各种动物声带肌的运动神经终末特点提供比较解剖学资料。     

A new Bennettitalean trunk with unilacunar five-trace nodal structure from the Upper Cretaceous of Hokkaido, Japan

A new species of Bucklandia is described based on a permineralized fossil trunk that was obtained from sediments of Upper Cretaceous age from Hokkaido, Japan. The quality of preservation is exquisite, and anatomical and morphological features are preserved at the cellular level. The specimen is clearly bennettitalean because of the cycadeoidean-type arrangement of vascular bundles in the petiole. However, this specimen is unique among previously described progymnosperms and gymnosperms in possessing a unilacunar five-trace type of nodal structure. The fossil thus contributes to a more complete understanding of the variation of nodal structure in bennettitalean trunks.     

Cellular expression of C<Subscript>3</Subscript> and C<Subscript>4</Subscript> photosynthetic enzymes in the amphibious sedge<Emphasis Type="Italic"> Eleocharis retroflexa</Emphasis> ssp.<Emphasis Type="Italic"> chaetaria</Emphasis>

The amphibious leafless sedge Eleocharis retroflexa ssp. chaetaria expresses C₄-like biochemical characteristics in both the terrestrial and submerged forms. Culms of the terrestrial form have Kranz anatomy, whereas those of the submerged form have Kranz-like anatomy combined with anatomical features of aquatic plant leaves. We examined the immunolocalization of C₃ and C₄ enzymes in culms of the two forms. In both forms, phosphoenolpyruvate carboxylase; pyruvate, Pi dikinase; and NAD-malic enzyme were compartmentalized between the mesophyll (M) and Kranz cells, but their levels were somewhat reduced in the submerged form. In the terrestrial form, ribulose-1,5-bisphosphate carboxylase/oxygenase (rubisco) occurred mainly in the Kranz cells, and weakly in the M chloroplasts. In the submerged form, the rubisco occurred at higher levels in the M cells than in the terrestrial form. In both forms, the C₄ pattern of enzyme expression was clearer in the M cells adjacent to Kranz cells than in distant M cells. During the transition from terrestrial to submerged conditions, the enzyme expression pattern changed in submerged mature culms that had been formed in air before submergence, and matched that in culms newly developed underwater. It seems that effects of both environmental and developmental factors overlap in the C₄ pattern expression in this plant.     

Differential sectoriality in long-distance transport in temperate tree species: evidence from dye flow, <Superscript>15</Superscript>N transport,and vessel element pitting

The capture of patchily distributed nutrients by tree roots has received extensive research, but the fate of those nutrients has not. We performed experiments to determine if nutrient transport within tree species is preferentially transported from specific roots to specific branches. Saplings of five species with contrasting growth requirements were examined: two Betula species (B. papyrifera and B. lenta), Populus tremuloides, and two Acer species (A. saccharum and A. rubrum). To quantify patterns of long-distance transport, we examined the accumulation of safranin-O dye and ¹⁵N in branches when these tracers were applied to isolated lateral roots (dye and ¹⁵N) and to the main root system (¹⁵N). Because transport of nutrients between sectors requires flow through intervessel pit pairs of adjacent xylem vessel elements, we quantified the area of intervessel pits, the number of pits per unit vessel wall area, and the % vessel wall area as pits in Acer and Betula. We found that the two Betula species were integrated (tracers applied to isolated roots were likely to accumulate in all branches), while P. tremuloides and the two Acer species were sectorial (tracer accumulation was more concentrated in particular branches). Betula had the largest number of intervessel pits per unit vessel wall area and the largest percentage of vessel wall area as pits. The high density of bordered pits may explain the ease of tracer movement throughout the two Betula species. Greater integration may allow certain trees (e.g., Betula) to exploit nutritionally patchy environments such as rocky soils, and may alter plant-herbivore interactions.     

Leaf photosynthetic traits scale with hydraulic conductivity and wood density in Panamanian forest canopy trees

We investigated how water transport capacity, wood density and wood anatomy were related to leaf photosynthetic traits in two lowland forests in Panama. Leaf-specific hydraulic conductivity (k_L) of upper branches was positively correlated with maximum rates of net CO₂ assimilation per unit leaf area (A_area) and stomatal conductance (g_s) across 20 species of canopy trees. Maximum k_L showed stronger correlation with A_area than initial k_L suggesting that allocation to photosynthetic potential is proportional to maximum water transport capacity. Terminal branch k_L was negatively correlated with A_area/g_s and positively correlated with photosynthesis per unit N, indicating a trade-off of efficient use of water against efficient use of N in photosynthesis as water transport efficiency varied. Specific hydraulic conductivity calculated from xylem anatomical characteristics (k_theoretical) was positively related to A_area and k_L, consistent with relationships among physiological measurements. Branch wood density was negatively correlated with wood water storage at saturation, k_L, A_area, net CO₂ assimilation per unit leaf mass (A_mass), and minimum leaf water potential measured on covered leaves, suggesting that wood density constrains physiological function to specific operating ranges. Kinetic and static indices of branch water transport capacity thus exhibit considerable co-ordination with allocation to potential carbon gain. Our results indicate that understanding tree hydraulic architecture provides added insights to comparisons of leaf level measurements among species, and links photosynthetic allocation patterns with branch hydraulic processes.     

Acetylcholinesterase in central vocal control nuclei of the zebra finch (<Emphasis Type="Italic">Taeniopygia guttata</Emphasis>)

The distribution of acetylcholinesterase (AChE) in the central vocal control nuclei of the zebra finch was studied using enzyme histochemistry. AChE fibres and cells are intensely labelled in the forebrain nucleus area X, strongly labelled in high vocal centre (HVC) perikarya, and moderately to lightly labelled in the somata and neuropil of vocal control nuclei robust nucleus of arcopallium (RA), medial magnocellular nucleus of the anterior nidopallium (MMAN) and lateral magnocellular nucleus of the anterior nidopallium (LMAN). The identified sites of cholinergic and/or cholinoceptive neurons are similar to the cholinergic presence in vocal control regions of other songbirds such as the song sparrow, starling and another genus of the zebra finch (Poephila guttata), and to a certain extent in parallel vocal control regions in vocalizing birds such as the budgerigar. AChE presence in the vocal control system suggests innervation by either afferent projecting cholinergic systems and/or local circuit cholinergic neurons. Co-occurrence with choline acetyltransferase (ChAT) indicates efferent cholinergic projections. The cholinergic presence in parts of the zebra finch vocal control system, such as the area X, that is also intricately wired with parts of the basal ganglia, the descending fibre tracts and brain stem nuclei could underlie this circuitry’s involvement in sensory processing and motor control of song.     

传统中药白芍原植物分类鉴定及根形态解剖研究

对我国主产地的白芍(Radix Paeonia alba)原植物10个居群进行调查及标本采集,植物鉴定结果为：川白芍原植物粉红花居群为原变种芍药Paeonia lactiflora Pall,白花居群为芍药变种毛果芍药P.lactiflora var.trichocarpa(Bunge)Stern;毫白芍原植物线条居群和蒲棒居群均为芍药;杭白芍原植物红花、白花、粉红花居群均为毛果芍药;陕西韩城、江苏东海、山东荷泽白芍均为芍药,各居群在花色及形态上有明显而稳定的变异。根横切面解剖结构显示,按木质部的排列方式可将白芍原植物10个居群分为两大类：第一类为有呈两个不相连的扇形中央导管群,并且有狭长、具分枝的从形成层到根中央部分连续排列的木质部,基本上是原植物芍药的植物特征,其中毫白芍线条居群兼有毛果芍药和芍药的特征;第二类为具有不明显的根中央扇形导管束,导管束呈环状围绕中央排列,并且有粗短不分枝的靠近形成层处成群的导管,与原植物毛果芍药的特征基本一致,其中杭白芍红花居群与川白芍白花居群根中央导管群呈现较明显的2个分离扇形排列,类似芍药。白芍原植物的种分类定位与花色无密切关联,但由于性状的稳定,可以考虑作为变种或变型定位。     

Comparative wood anatomy of epacrids (Styphelioideae,Ericaceae s.L.)

The wood anatomy of 16 of the 37 genera within the epacrids (Styphelioideae, Ericaceae s.l.) is investigated by light and scanning electron microscopy. Several features in the secondary xylem occur consistently at the tribal level: arrangement of vessel-ray pits, distribution of axial parenchyma, ray width, and the presence and location of crystals. The primitive nature of Prionoteae and Archerieae is supported by the presence of scalariform perforation plates with many bars and scalariform to opposite vessel pitting. The wood structure of Oligarrheneae is similar to that of Styphelieae, but the very narrow vessel elements, exclusively uniseriate rays and the lack of prismatic crystals in Oligarrheneae distinguish these two tribes. The secondary xylem of Monotoca tamariscina indicates that it does not fit in Styphelieae; a position within Oligarrheneae is possible. Like most Cosmelieae, all Richeeae are characterized by exclusively scalariform perforation plates with many bars, a very high vessel density and paratracheal parenchyma, although they clearly differ in ray width (exclusively uniseriate rays in Cosmelieae vs. uniseriate and wide multiseriate rays in Richeeae). Several wood anatomical features confirm the inclusion of epacrids in Ericaceae s.l. Furthermore, there are significant ecological implications. The small vessel diameter and high vessel frequency in many epacrids are indicative of a high conductive safety to avoid embolism caused by freeze-thaw cycles, while the replacement of scalariform by simple vessel perforation plates and an increase in vessel diameter would suggest an increased conductive efficiency, which is especially found in mesic temperate or tropical Styphelieae.     

Functional morphology of prey capture in the sturgeon,Scaphirhynchus albus

Acipenseriformes (sturgeon and paddlefish) are basal actinopterygians with a highly derived cranial morphology that is characterized by an anatomical independence of the jaws from the neurocranium. We examined the morphological and kinematic basis of prey capture in the Acipenseriform fish Scaphirhynchus albus, the pallid sturgeon. Feeding pallid sturgeon were filmed in lateral and ventral views and movement of cranial elements was measured from video sequences. Sturgeon feed by creating an anterior to posterior wave of cranial expansion resulting in prey movement through the mouth. The kinematics of S. albus resemble those of other aquatic vertebrates: maximum hyoid depression follows maximum gape by an average of 15 ms and maximum opercular abduction follows maximum hyoid depression by an average of 57 ms. Neurocranial rotation was not a part of prey capture kinematics in S. albus, but was observed in another sturgeon species, Acipenser medirostris. Acipenseriformes have a novel jaw protrusion mechanism, which converts rostral rotation of the hyomandibula into ventral protrusion of the jaw joint. The relationship between jaw protrusion and jaw opening in sturgeon typically resembles that of elasmobranchs, with peak upper jaw protrusion occurring after peak gape.