Robert Alexander Robertson

Summary

The period between the 10th and 13th centuries isdenoted in the history of Poland as the latter part of early Middle Ages. Politically, it covers the time span marked by the foundation of the Polish state under the Piast dynasty, on the one hand, and the first attempts to unite the country after its dismemberment, on the other. Socially, the most important landmark of this era is the formation of the early feudal structure. Artistically, it is characterized by the development of the Romanesque style. Archaeological excavations carried out in numerous early mediaeval settlements and strongholds have provided rich archaeobotanical sources which allow one to trace the inter-relations between man and plants. Plant remains help one to determine which species were preferred and cultivated.     

Early Cretaceous Gleicheniaceae and Matoniaceae (Gleicheniales) from Alexander Island,Antarctica

The first Cretaceous representatives of Matoniaceae and Gleicheniaceae in the Antarctic are described from the Albian flora of Alexander Island. Two new species are recognized, one is assigned to Matonia, and another to the emended gleicheniaceous form-genus Gleicheniaceaephyllum. The taxonomy of fossil genera assigned to Gleicheniaceae is problematic, and as an alternative to the invalid genus Gleichenites, we propose that Microphyllopteris be utilised as a form-genus for species that have either an unknown branching pattern or pseudo-dichotomous branching without resting buds; Microphyllopteris is reserved for ferns that cannot be ascribed conclusively to Gleicheniaceae. Alternatively, Gleicheniaceaephyllum should be used for gleicheniaceous material that has a resting bud amongst two to four primary branches. Gleicheniaceaephyllum acutum sp. nov. is preserved as sterile and fertile fronds, pinnae and pinnules. The other new species, Matonia jeffersonii sp. nov., occurs as sterile and fertile pinnae and pinnules, and is aligned to Matoniaceae based on the presence of circular-oval sori with peltate indusia. The two taxa are inferred to have either a pedate or scrambling habit. These morphologies are relatively common at Alexander Island, compared to other high latitude fossil floras, and are interpreted as an adaptation to the high disturbance, polar conditions and unusual photoperiod experienced at Alexander Island during the Early Cretaceous. The theory that angiosperms caused the demise of ferns is discussed in relation to the Matoniaceae and Gleicheniaceae, and there does not appear to be association between angiosperm expansion and the decline of these two fern families.     

Adaptive autophagy in Alexander disease-affected astrocytes

The ubiquitin-proteasome and autophagy-lysosomal pathways are the two main routes of protein and organelle clearance in eukaryotic cells. The proteasome system is responsible for unfolded, short-lived proteins, which precludes the clearance of oligomeric and aggregated proteins, whereas macroautophagy, a process generally referred to as autophagy, mediates mainly the bulk degradation of long-lived cytoplasmic proteins, large protein complexes or organelles.(1) Recently, the autophagy-lysosomal pathway has been implicated in neurodegenerative disorders as an important pathway for the clearance of abnormally accumulated intracellular proteins, such as huntingtin, tau and mutant and modified alpha-synuclein.(1-6) Our recent study illustrated the induction of adaptive autophagy in response to mutant glial fibrillary acidic protein (GFAP) accumulation in astrocytes, in the brains of patients with Alexander disease (AxD), and in mutant GFAP knock-in mouse brains.(7) This autophagic response is negatively regulated by mammalian target of rapamycin (mTOR). The activation of p38 MAPK by GFAP accumulation is responsible for mTOR inactivation and the induction of autophagy. We also found that the accumulation of GFAP impairs proteasome activity.(8) In this commentary we discuss the potential compensatory relationship between an impaired proteasome and activated autophagy, and propose that the MLK-MAPK (mixed lineage kinase-mitogen-activated protein kinase) cascade is a regulator of this crosstalk.     

Adaptive autophagy in Alexander disease-affected astrocytes

The ubiquitin-proteasome and autophagy-lysosomal pathways are the two main routes of protein and organelle clearance in eukaryotic cells. The proteasome system is responsible for unfolded, short-lived proteins, which precludes the clearance of oligomeric and aggregated proteins, whereas macroautophagy, a process generally referred to as autophagy, mediates mainly the bulk degradation of long-lived cytoplasmic proteins, large protein complexes or organelles.¹ Recently, the autophagy-lysosomal pathway has been implicated in neurodegenerative disorders as an important pathway for the clearance of abnormally accumulated intracellular proteins, such as huntingtin, tau, and mutant and modified α-synuclein.^1-6 Our recent study illustrated the induction of adaptive autophagy in response to mutant glial fibrillary acidic protein (GFAP) accumulation in astrocytes, in the brains of patients with Alexander disease (AxD), and in mutant GFAP knock-in mouse brains.⁷ This autophagic response is negatively regulated by mammalian target of rapamycin (mTOR). The activation of p38 MAPK by GFAP accumulation is responsible for mTOR inactivation and the induction of autophagy. We also found that the accumulation of GFAP impairs proteasome activity.⁸ In this commentary we discuss the potential compensatory relationship between an impaired proteasome and activated autophagy, and propose that the MLK-MAPK (mixed lineage kinase–mitogen-activated protein kinase) cascade is a regulator of this crosstalk.

Addendum to: Tang G, Yue Z, Talloczy, Z, Hagemann T, Cho W, Sulzer D, Messing A, Goldman JE. Alexander disease-mutant GFAP accumulation stimulates autophagy through p38 MAPK and mTOR signaling pathways. Hum Mol Genetics 2008; In press.     

Living on the edge: Exploring the role of coastal refugia in the Alexander Archipelago of Alaska

Although islands are of long‐standing interest to biologists, only a handful of studies have investigated the role of climatic history in shaping evolutionary diversification in high‐latitude archipelagos. In this study of the Alexander Archipelago (AA) of Southeast Alaska, we address the impact of glacial cycles on geographic genetic structure for three mammals co‐distributed along the North Pacific Coast. We examined variation in mitochondrial and nuclear loci for long‐tailed voles (Microtus longicaudus), northwestern deermice (Peromyscus keeni), and dusky shrews (Sorex monticola), and then tested hypotheses derived from Species Distribution Models, reconstructions of paleoshorelines, and island area and isolation. In all three species, we identified paleoendemic clades that likely originated in coastal refugia, a finding consistent with other paleoendemic lineages identified in the region such as ermine. Although there is spatial concordance at the regional level for endemism, finer scale spatial and temporal patterns are less clearly defined. Demographic expansion across the region for these distinctive clades is also evident and highlights the dynamic history of Late Quaternary contraction and expansion that characterizes high‐latitude species.     

On biology of limoniid flies of the genus Teucholabis Osten-Sacken (Diptera, Limoniidae) with a description of immature stages of Teucholabis esakii (Alexander) and T. yezoensis Alexander

The larvae and pupae of two xylobiont species of limoniid flies, Teucholabis esakii (Al.) and T. yezoensis Al., are described for the first time. The larvae live under bark among bast fibers of Maackia amurensis and Phellodendron amurense, rarely under bark of various species of oak, aspen, birch, and maple. A key to larvae and pupae of the two species is provided. Original Russian Text ? M.G. Krivosheina, 2009, published in Entomologicheskoe Obozrenie, 2009, Vol. 88, No. 1, pp. 185–193.     

Speciation despite globally overlapping distributions in Penicillium chrysogenum: the population genetics of Alexander Fleming’s lucky fungus

Eighty years ago, Alexander Fleming described the antibiotic effects of a fungus that had contaminated his bacterial culture, kick starting the antimicrobial revolution. The fungus was later ascribed to a putatively globally distributed asexual species, Penicillium chrysogenum. Recently, the species has been shown to be genetically diverse, and possess mating‐type genes. Here, phylogenetic and population genetic analyses show that this apparently ubiquitous fungus is actually composed of at least two genetically distinct species with only slight differences detected in physiology. We found each species in air and dust samples collected in and around St Mary’s Hospital where Fleming worked. Genotyping of 30 markers across the genome showed that preserved fungal material from Fleming’s laboratory was nearly identical to derived strains currently in culture collections and in the same distinct species as a wild progenitor strain of current penicillin producing industrial strains rather than the type species P. chrysogenum. Global samples of the two most common species were found to possess mating‐type genes in a near 1:1 ratio, and show evidence of recombination with little geographic population subdivision evident. However, no hybridization was detected between the species despite an estimated time of divergence of less than 1 MYA. Growth studies showed significant interspecific inhibition by P. chrysogenum of the other common species, suggesting that competition may facilitate species maintenance despite globally overlapping distributions. Results highlight under‐recognized diversity even among the best‐known fungal groups and the potential for speciation despite overlapping distribution.     

Late quaternary vegetation dynamics and human impact on Alexander Selkirk Island, Chile

Aim To reconstruct the history of vegetation and environments using pollen, charcoal and sediment analysis, and to identify the timing and nature of climate change and human impact on the vegetation of a remote Pacific island. Location Cerro de Los Inocentes, 1000 m above sea level, Alexander Selkirk Island (33°45′S, 80°45′W), Chile. The westernmost island of the Juan Fernandez Archipelago, south‐east Pacific Ocean. Methods A 150‐cm long sediment core comprising 87 cm dark brown peat overlying 63 cm of yellow grey clay was extracted from a shallow depression on the southern slopes of Cerro de Los Inocentes. Pollen, charcoal, sediment and accelerator mass spectrometry radiocarbon analyses were used to construct a record of vegetation change through time. Numerical analysis of multispecies data allowed the classification of fossil assemblages into distinct pollen zones. Results Pollen and spores are preserved throughout the sediment with high concentrations coinciding with the beginning of organic sediment accumulation at around 8000 ¹⁴C yr BP. Prior to 8000 ¹⁴C yr BP, the deposition of clays, presumably from upslope erosion, occurred in a landscape sparsely vegetated by grasses, ferns and Pernettya rigida heath, including several plants that are only found 100–200 m above the site today (Zone CI‐1). After 8000 ¹⁴C yr BP, a P. rigida heath was the dominant vegetation (Zone CI‐2). A shift to a wet heath–shrubland (Zone CI‐3) occurred at 6000 ¹⁴C yr BP and was followed by a transition to a treefern–shrubland mosaic accompanied by periodic burning (Zone CI‐4) after 4500 ¹⁴C yr BP. The impact of human occupation is evident in Zone CI‐5 at 450 ¹⁴C yr BP with the loss of forest species, increased burning and invasion of the exotic plant Rumex. Main conclusions The pollen and charcoal record provides the first evidence of vegetation changes spanning at least the last 8000 ¹⁴C yr BP from the high altitude environment of Alexander Selkirk Island. Prior to 8000 ¹⁴C yr BP, the altitudinal ranges of different plant species may have been suppressed by a cooler and drier climate. Increasing precipitation and temperatures at the end of the last glacial period may have mobilized exposed sediments in a sparsely vegetated upland environment, altering local drainage patterns, eventually leading to slope stabilization and deposition of organic detritus under an increasing density of heath and shrub vegetation. The subalpine heath–shrubland persisted until 4500 ¹⁴C yr BP when first evidence for sustained burning is found in association with the establishment of a more open treefern–shrubland vegetation pattern. In the absence of human occupation at this time, the influence of increased climatic variability associated with more frequent El Niño‐Southern Oscillation events during the mid to late Holocene is considered one of the main driving forces behind increased vegetation disturbance during this period. The record provides evidence that island vegetation patterns have been highly dynamic over millennial to decadal time‐scales and that the flora has persisted through periods of rapid and major climate change. This changed with the discovery of the island by European explorers in the late sixteenth century and the subsequent introduction of goats and exploitation and burning of forests, which resulted in the progressive destruction of native vegetation and the invasion of introduced plants. There is evidence that reduced burning and control of the goat population within the last 50 years has resulted in marginal recovery of some high altitude native plant species.     

A review of genus Grahamomyia Alexander, 1935 (Diptera,Limoniidae)

Only one species of the genus Grahamomyia Alexander, 1935 was previously known from the world. Here one new species, Grahamomyia bilobula sp. nov., is reported from China. Grahamomyia bicellula Alexander, 1935 is re-described and illustrated. A key to the known species of Grahamomyia is presented.LSID: urn:lsid:zoobank.org:pub:A18E32D8-B017-46FF-B05B-B664AF988F1B.     

The name of the father: conflict between Louis and Alexander Agassiz and the Embiotoca surfperch radiation

The surfperch genus Embiotoca currently comprises two species, Embiotoca jacksoni , the black surfperch, and Embiotoca lateralis , the striped surfperch. Originally, however, Louis Agassiz described a third species in the genus Embiotoca , the rainbow surfperch, Embiotoca caryi . This latter name was changed by Louis' son, Alexander, to Hypsurus caryi , a name that remains valid. In this study, new molecular data (3545 bp of DNA from four mitochondrial and two nuclear DNA regions) indicated that the rainbow surfperch should be retained within the genus Embiotoca , a result consistent with recent morphological data. Adaptive radiation combined with sexual selection resulting in rapid morphological changes in the rainbow surfperch may have contributed to the conflicting position of this species.     

GFAP and its role in Alexander disease

Here we review how GFAP mutations cause Alexander disease. The current data suggest that a combination of events cause the disease. These include: (i) the accumulation of GFAP and the formation of characteristic aggregates, called Rosenthal fibers, (ii) the sequestration of the protein chaperones alpha B-crystallin and HSP27 into Rosenthal fibers, and (iii) the activation of both Jnk and the stress response. These then set in motion events that lead to Alexander disease. We discuss parallels with other intermediate filament diseases and assess potential therapies as part of this review as well as emerging trends in disease diagnosis and other aspects concerning GFAP.     

Mikrobiologische Charakterisierung einiger natürlicher und kultivierter Standorte in drei verschiedenen ökologischen Regionen Chiles

Zusammenfassung Es wurden quantitative Untersuchungen über den jahreszeitlichen Wechsel des Mikrobenbesatzes verschiedener natürlicher und kultivierter B?den in drei verschiedenen ?kologischen Klimabereichen Chiles durchgeführt. Der Massenwechsel der Mikroorganismen der B?den im Steppenklima des Norte Chico sowie derjenigen im sommertrockenen Zentralchile wies eine eingipflige Kurve auf. Das Maximum der Mikrobenaktivit?t wurde w?hrend der Regenzeit beobachtet. Die B?den im konstant feuchten Südchile waren das ganze Jahr hindurch stark belebt. W?hrend der besonders feuchten Wintermonate wurde in diesem Teil Chiles allgemein eine Zunahme der anaeroben Organismen beobachtet. Besonders auffallend war dies in den Gleyb?den, wo diese Organismengruppe w?hrend dieser Jahreszeit vorherrschend war. Die hohen winterlichen Niederschlagsmengen hatten vor allem in der Selva Valdiviana eine Versauerung des Bodens zur Folge. Der Abfall des pH-Wertes hatte an diesem Standort eine sprunghafte Zunahme des Pilzbesatztes zur Folge. Es wurde auf den Einflu? der Be- bzw. Entw?sserung der B?den auf den Mikrobenbesatz hingewiesen. Die Aufforstung mit Pinus insigne hatte im Süden Chiles eine Versauerung des Bodens und damit verbunden eine Abnahme des Mikrobenbesatzes zur Folge. Vergliechen mit einem natürlichen Wald, wies der Pinuswald ein viel engeres Verh?ltnis Bakterien: Pilze auf. Die Pilzflora der einzelnen ?kologischen Klimabereiche war sehr verschieden. In den sommertrockenen Gebieten herrschten verschiedene Vertreter der GattungAspergillus vor. In dem konstant feuchten Süden Chiles fehlten diese. Hier wurden verschiedene Mucorineen, wie z.B.Circinella undZygorhynchus isoliert, die wiederum in den Trockengebieten fehlten.

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Summary Quantitative investigations were made of the seasonal variation of microbial life in several natural and cultivated soils in three different climatic zones of Chile. In the soils of the steppe climate in the Norte Chico as well as in the soils of Central Chile with its temperate, summer-dry climate the maximum of microbial life was observed during the rainy season. The soils in the constant humid and temperate south of Chile showed a remarkable number of micro-organisms all the year over. During the most humid months in wintertime an increase of the number of the anaerobionts in all sites of this part of Chile was observed. In the gley-soils in which the anaerobionts were dominating during the winterseason, this was especially remarkable. The high amount of precipitation during wintertime caused an acidification of the soils particularly of the brown earth under Selva Valdiviana. The decrease of the pH value in this soil caused a sudden increase of the numbers of fungi. The influence of irrigation and drainage on the number of micro-organisms was demonstrated. The afforestation withPinus insigne caused in the south of Chile an acidification of the soil and at the same time a decrease of the microbial numbers. The relation between bacteria and fungi in the Pinus forest was closer than in the naturally grown forest. In the various ecological zones of climate the fungous flora was very different. In the summer-dry regions the genusAspergillus was dominant. This genus was not found in the constant humid south. From these soils different Mucorinees, for exampleCircinella simplex andZygorhynchus heterogamus, were isolated. These fungi were not observed in the dry regions.

     

Revision of Tipula (Yamatotipula) stackelbergi Alexander (Diptera, Tipulidae), and a short discussion on subspecies among crane flies

All available type material of Tipula stackelbergi Alexander, Tipula usuriensis Alexander and Tipula subpruinosa Mannheims were examined. Tipula (Yamatotipula) stackelbergistat. rev. is elevated from a subspecies of Tipula (Yamatotipula) pruinosa Wiedemann to a valid species. Two new synonyms are proposed: Tipula usuriensissyn. n. proved to be a junior synonym of. Tipula (Yamatotipula) pruinosa and Tipula subpruinosasyn. n. a junior synonym of Tipula (Yamatotipula) freyana Lackschewitz. Tipula (Yamatotipula) stackelbergi is redescribed, male and female terminalia of Tipula (Yamatotipula) pruinosa are illustrated and discussed. Female terminalia of Tipula (Yamatotipula) freyana are described and illustrated for the first time. A key to both sexes of Tipula (Yamatotipula) stackelbergi and Tipula (Yamatotipula) pruinosa, and a key to females of Tipula (Yamatotipula) chonsaniana, Tipula (Yamatotipula) freyana and Tipula (Yamatotipula) moesta are provided. Subspecies are not uncommon among crane flies, but their ranges and traits are poorly known. An interdisciplinary approach (genetics, ecology, taxonomy) is suggested if subspecific ranks are to be used in tipuloid systematics.     

First record of Teleogryllus (Brachyteleogryllus) marini Otte & Alexander, 1983 (Orthoptera: Gryllidae) in korea and discussion of its continued misidentification using DNA barcoding

DNA barcoding is useful for identifying species that are difficult to distinguish via morphological analysis. However, if the public DNA barcode database includes misidentified DNA samples, subsequent molecular studies could generate incorrect results. Here, we report a misidentified DNA barcode for the North Coastal Black Field Cricket Teleogryllus (Brachyteleogryllus) marini. T. (B.) marini is routinely misidentified using DNA barcoding; it has been reported as Teleogryllus (Brachyteleogryllus) commodus since its misidentification in various studies of Asian samples. Here, we report the first occurrence of T. (B.) marini in Korea, along with its morphological diagnosis, bioacoustic signals, and DNA barcoding findings. T. (B.) marini is transferred to the subgenus Brachyteleogryllus from the subgenus Teleogryllus, based on the male genitalia morphology and phylogenetic analysis. Genetic distance analyses have shown that cytochrome c oxidase I barcoding is useful for species identification of the genus Teleogryllus, but detailed morphological investigations are essential for DNA barcoding before any molecular study.     

"Our standpoint different from common ..." (scientific heritage of Alexander Gurwitsch)

The work of prominent Russian biologist Alexander Gavrilovich Gurwitsch (1874-1954) on the theory of organism development are reviewed. Alexander Gurwitsch introduced the concept of embryonic (morphogenetic, biological, and cellular) field and proposed several revisions of it from 1912 to 1944. Although neither of them can be considered as a final theory of development, his the persistent search for the invariant law that allows the shape (spatial structure) to be proposed for each next developmental stage from the previous shape is of imperishable methodological interest. Alexander Gurwitsch anticipated many ideas of the future theory of self-organization. His theoretical constructions are explicit and experiment-oriented but absolutely not esoteric. They represent a highly important and original contribution to theoretical biology and are an essential step to further development of the ontogenetic theory.     

“Our standpoint different from common...” (Scientific heritage of Alexander Gurwitsch)

The work of prominent Russian biologist Alexander Gavrilovich Gurwitsch (1874–1954) on the theory of organism development are reviewed. Alexander Gurwitsch introduced the concept of embryonic (morphogenetic, biological, and cellular) field and proposed several revisions of it from 1912 to 1944. Although neither of them can be considered as a final theory of development, his the persistent search for the invariant law that allows the shape (spatial structure) to be proposed for each next developmental stage from the previous shape is of imperishable methodological interest. Alexander Gurwitsch anticipated many ideas of the future theory of self-organization. His theoretical constructions are explicit and experiment-oriented but absolutely not esoteric. They represent a highly important and original contribution to theoretical biology and are an essential step to further development of the ontogenetic theory.     

Assessment of anadromous salmon resources in the diet of the Alexander Archipelago wolf using stable isotope analysis

The Alexander Archipelago wolf (Canis lupus ligoni) is unique to southeast Alaska, occurring on islands south of Frederick Sound and along the mainland between Dixon Entrance and Yakutat Bay. Sitka black-tailed deer (Odocoileus hemionus sitkensis) are an important prey species for wolves across the southern part of the region. Spawning salmon (Onchorynchus sp.) are seasonally available but their presence in wolf diets has not previously been quantified. We examined the range of bone collagen δ¹³C and δ¹⁵N values for wolves throughout southeast (n = 163) and interior (n = 50) Alaska and used a dual-isotope mixing model to determine the relative contribution of salmon-derived marine protein in the diet. Southeast Alaska wolves consumed significantly more salmon (mean ± SE: 18.3 ± 1.2%) than did wolves from interior Alaska (9.1 ± 0.6%, P<0.001). Wolves on the southeast Alaska mainland appeared to have higher marine isotopic signatures than island wolves, although this difference was not significant. Variation among individual wolf diets was higher for southeast than for interior Alaska wolves, and variation was highest in coastal mainland wolf diets (P<0.001). Marine resources may augment the diet of southeast Alaska wolves during seasonal or annual fluctuations in the availability of deer, particularly in those areas on the mainland where densities of terrestrial ungulates are relatively low. Received: 1 July 1998 / Accepted: 23 February 1999     

The Alexander Fleming Museum

This article describes a visit to the museum, where Penicillin was discovered in 1928, which would be of particular interest to future medical students