黄土丘陵区植被与地形特征对土壤和土壤微生物生物量生态化学计量特征的影响

研究黄土丘陵区植被与地形特征对土壤和土壤微生物生物量生态化学计量特征影响有助于深入理解黄土丘陵区不同植被带下土壤和土壤微生物相互作用及养分循环规律.选择黄土丘陵区延河流域3个植被区(森林区、森林草原区、草原区)和5种地形部位(阴/阳沟坡、阴/阳梁峁坡、峁顶)的土壤作为研究对象,利用生态化学计量学理论研究植被和地形对土壤和土壤微生物生物量生态化学计量特征的影响.结果表明: 土壤及土壤微生物生物量碳、氮、磷含量在不同地形之间的差别主要表现在沟坡位置和阴坡高于其他坡位和阳坡.植被类型的变化对两个土层(0～10、10～20 cm)土壤和土壤微生物生物量碳、氮、磷的影响均达到显著水平,坡向对表层(0～10 cm)土壤和土壤微生物生物量碳、氮、磷的影响强于坡位,而在10～20 cm土层,坡位对土壤和土壤微生物生物量碳、氮、磷影响更显著.植被类型显著影响土壤C∶N、C∶P、N∶P和土壤微生物生物量C∶N、C∶P,坡向和坡位仅影响土壤C∶P和N∶P,植被类型的变化是影响土壤C∶N的主要因素.同时,植被类型对土壤养分和微生物生物量碳、氮、磷含量及其生态化学计量特征的影响大于地形因子.标准化主轴分析结果表明,黄土丘陵区不同植被带土壤微生物具有内稳性,特别在草原带,土壤微生物生物量生态化学计量学特征具有更加严格的约束比例.在黄土丘陵区,土壤微生物生物量N∶P或许可以作为判断养分限制的另一个有力工具,若将土壤微生物生物量N∶P与植物叶片N∶P配合使用可能有助于我们更加精确地判断黄土丘陵区的土壤养分限制情况.     

Reaktionsmuster verschiedener Mittel-und Zwischenhirnzentren von Rana temporaria L. nach Unterbrechung der Nervenbahnen des Pinealkomplexes

Zusammenfassung Der Einfluß des lichtempfindlichen Pinealkomplexes (Stirnorgan und Epiphysis cerebri) von Rana temporaria auf dorsale diencephale und mesencephale Hirnzentren breitet sich über ein größeres Gebiet aus als man bisher angenommen hat. Nach operativer Unterbrechung des Nervus- und Tractus pinealis wurde mit Punktzählverfahren die Dichte der Zell- und Zellkernvolumina sowie der Kapillaroberfläche im dorsalen Thalamus, mesencephalen (postthalamischen) zentralen Grau, Ganglion habenulae, Tectum opticum, in der Area praetectalis und im Subcommissuralorgan (Sco) bestimmt. Die morphometrischen Meßergebnisse lassen sich wie folgt interpretieren: 1. Der Pinealkomplex wirkt auf das Sco, das zentrale Grau und die Area praetectalis ein (vgl. Paul u. Mitarb., 1971); das Sco wird in erster Linie über das Stirnorgan beeinflußt. 2. Weitere Kerngebiete des Zwischenhirns (Ganglion habenulae und dorsaler Thalamus) gehören funktionell zu dem vom Pinealkomplex kontrollierten System. 3. Die von Kemali und Braitenberg (1970) beschriebene Asymmetrie der Ganglia habenularum zeigt sich auch im funktionellen Zusammenspiel dieser Kerngebiete mit dem Pinealkomplex, dem dorsalen Thalamus und dem dorsalen Abschnitt des zentralen Graus. Die in Stirnorgan und Epiphysis cerebri transformierten Lichtreize werden in Hirnabschnitte weitergeleitet, die olfaktorische und retinale Signalmuster verarbeiten. Über die biologische Bedeutung der nervösen Beziehungen des Stirnorgans zum sekretorischen Sco können noch keine Angaben gemacht werden.

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Study of mesencephalic and diencephalic centers after transection of the centripetal nervous pathways of the pineal complex in Rana temporaria L.

Summary Nervous influences of the pineal complex of the frog, Rana temporaria, exerted upon mesencephalic and diencephalic centers were investigated using morphometric methods after the transection of the nervus or the tractus pinealis. Densities of the cell- and nuclear volumes and of the capillaries were measured by a point-counting method in the dorsal thalamus, the mesencephalic (postthalamic) central gray, the habenular ganglion, the optic tectum, the pretectal area, and the subcommissural organ (sco). The morphometric measurements showed: 1. A functional influence of the pineal complex on the sco, the central gray, and the pretectal area (see Paul et al., 1971); the frontal organ seems to be primarily related to the sco. 2. The habenular ganglia and the dorsal thalamus belong to a system which is controlled by the pineal complex. 3. The morphological asymmetry of the habenular ganglia (Kemali and Braitenberg, 1970) has an influence on the functional interactions between the pineal complex, the dorsal thalamus, and the central gray. The impulses arising in the light-sensitive pineal complex of the frog are conducted to brain regions which are known to integrate olfactory and retinal sensory inputs. The functional significance of the nervous connexion of the frontal organ with the secretory sco is still open to discussion.

Mit Unterstützung durch die Deutsche Forschungsgemeinschaft (Arbeitskreis Prof. Dr. A. Oksche).     

Climate hindcasts: exploring the disjunct distribution of Diopatra biscayensis

The ecosystem engineer onuphid polychaete Diopatra biscayensis has a continuous population in the Bay of Biscay from the Cantabria coast in Spain to southern Brittany in France. A group of disjunct populations also are found in the English Channel, separated from the Biscay population by more than 400 coastal kilometers. It remains unclear whether D. biscayensis is native to the Bay of Biscay; it is also debated whether the disjunct populations in the English Channel are relics of a formerly continuous population, or the product of recent introductions through aquaculture. Here, we use climate hindcasts to explore hypotheses about the D. biscayensis historical distribution in Europe. If D. biscayensis is native, its range would have been restricted to southern Iberia and the Mediterranean during the Last Glacial Maximum (21,000 BP). However, the species is completely absent from both regions today, further supporting its interpretation as a non‐native species. If it was historically present in Europe, the climate hindcasts are congruent with range contraction in the Last Glacial Maximum (21,000 BP), expansion in the Mid‐Holocene Warm Period (6000 BP), and contraction again in the past 1000 years (850–1850), prior to the first reports of D. biscayensis on the Spanish and French Atlantic coasts. However, the simulations do not support there being climatic refugia along the English Channel coast that would account for the existence of relic populations. Taken together, the evidence suggests that D. biscayensis has been introduced to the Bay of Biscay, and that disjunct populations in the English Channel are the result of recent transport through human activities, perhaps aquaculture.     

Ultrastructure of Synergids in Mature Embryo Sac of Convolvulus arvensis

The main ultras tructure of synergids in mature embryo sac of Convolvulus arvensis L. was studied by means of electron microscope was the same as those previously reported. However, growth of many finger-like projections continuously distributed on the outer surface of synergids was observed. Exchange of material between central cell and synergids was enhanced by the transfer wall. The profile of endoplasmic reticulum which was long and parallelly arranged became shortened and randomly expanded. A narrow path appeared at the junction of egg and synergid.     

Metamorphic remodeling of the primary olfactory projection in Xenopus: Developmental independence of projections from olfactory neuron subclasses

In adult Xenopus, the nasal cavity is divided into separate middle (MC) and principal (PC) cavities; the former is used to smell water-borne odorants, the latter air-borne odorants. Recent work has shown that olfactory neurons of each cavity express a distinct subclass of odorant receptors. Moreover, MC and PC axons project to distinct regions of the olfactory bulb. To examine the developmental basis for this specificity in the olfactory projection, we extirpated the developing MC from early metamorphic (stage 54–57) tadpoles and raised the animals through metamorphosis. In most lesioned animals, the MC partly regenerated. Compared with the unlesioned side, reduction of the region of the glomerular layer of the olfactory bulb receiving MC afferents ranged from 70% to 95%. PC afferents did not occupy regions of the olfactory bulb deprived of MC afferents. These results support a model in which intrinsic cues in the olfactory bulb control the projection pattern attained by ingrowing olfactory axons. © 1997 John Wiley & Sons, Inc. J Neurobiol 32: 213–222, 1997.     

Climate change and Australia: Trends,projections and impacts

Abstract This review summarizes recent research in Australia on: (i) climate and geophysical trends over the last few decades; (ii) projections for climate change in the 21st century; (iii) predicted impacts from modelling studies on particular ecosystems and native species; and (iv) ecological effects that have apparently occurred as a response to recent warming. Consistent with global trends, Australia has warmed ～0.8°C over the last century with minimum temperatures warming faster than maxima. There have been significant regional trends in rainfall with the northern, eastern and southern parts of the continent receiving greater rainfall and the western region receiving less. Higher rainfall has been associated with an increase in the number of rain days and heavy rainfall events. Sea surface temperatures on the Great Barrier Reef have increased and are associated with an increase in the frequency and severity of coral bleaching and mortality. Sea level rises in Australia have been regionally variable, and considerably less than the global average. Snow cover and duration have declined significantly at some sites in the Snowy Mountains. CSIRO projections for future climatic changes indicate increases in annual average temperatures of 0.4–2.0°C by 2030 (relative to 1990) and 1.0–6.0°C by 2070. Considerable uncertainty remains as to future changes in rainfall, El Niño Southern Oscillation events and tropical cyclone activity. Overall increases in potential evaporation over much of the continent are predicted as well as continued reductions in the extent and duration of snow cover. Future changes in temperature and rainfall are predicted to have significant impacts on most vegetation types that have been modelled to date, although the interactive effect of continuing increases in atmospheric CO₂ has not been incorporated into most modelling studies. Elevated CO₂ will most likely mitigate some of the impacts of climate change by reducing water stress. Future impacts on particular ecosystems include increased forest growth, alterations in competitive regimes between C3 and C4 grasses, increasing encroachment of woody shrubs into arid and semiarid rangelands, continued incursion of mangrove communities into freshwater wetlands, increasing frequency of coral bleaching, and establishment of woody species at increasingly higher elevations in the alpine zone. Modelling of potential impacts on specific Australian taxa using bioclimatic analysis programs such as bioclim consistently predicts contraction and/or fragmentation of species' current ranges. The bioclimates of some species of plants and vertebrates are predicted to disappear entirely with as little as 0.5–1.0°C of warming. Australia lacks the long‐term datasets and tradition of phenological monitoring that have allowed the detection of climate‐change‐related trends in the Northern Hemisphere. Long‐term changes in Australian vegetation can be mostly attributed to alterations in fire regimes, clearing and grazing, but some trends, such as encroachment of rainforest into eucalypt woodlands, and establishment of trees in subalpine meadows probably have a climatic component. Shifts in species distributions toward the south (bats, birds), upward in elevation (alpine mammals) or along changing rainfall contours (birds, semiarid reptiles), have recently been documented and offer circumstantial evidence that temperature and rainfall trends are already affecting geographic ranges. Future research directions suggested include giving more emphasis to the study of climatic impacts and understanding the factors that control species distributions, incorporating the effects of elevated CO₂ into climatic modelling for vegetation and selecting suitable species as indicators of climate‐induced change.     

Ectopic expression of tyrosine hydroxylase in the pigmented epithelium rescues the retinal abnormalities and visual function common in albinos in the absence of melanin

Albino mammals have profound retinal abnormalities, including photoreceptor deficits and misrouted hemispheric pathways into the brain, demonstrating that melanin or its precursors are required for normal retinal development. Tyrosinase, the primary enzyme in melanin synthesis commonly mutated in albinism, oxidizes l-tyrosine to l-dopaquinone using l-3,4-dihydroxyphenylalanine (L-DOPA) as an intermediate product. L-DOPA is known to signal cell cycle exit during retinal development and plays an important role in the regulation of retinal development. Here, we have mimicked L-DOPA production by ectopically expressing tyrosine hydroxylase in mouse albino retinal pigment epithelium cells. Tyrosine hydroxylase can only oxidize l-tyrosine to L-DOPA without further progression towards melanin. The resulting transgenic animals remain phenotypically albino, but their visual abnormalities are corrected, with normal photoreceptor numbers and hemispheric pathways and improved visual function, assessed by an increase of spatial acuity. Our results demonstrate definitively that only early melanin precursors, L-DOPA or its metabolic derivatives, are vital in the appropriate development of mammalian retinae. They further highlight the value of substituting independent but biochemically related enzymes to overcome developmental abnormalities.