4,846 research outputs found
Aponogeton natans Engl. & K. Krause
Saururus natans Linnaeus, Mantissa Plantarum Altera: 227. 1771. "Habitat in Indiae orientalis aquis. Koenig." RCN: 2632. Lectotype (van Bruggen in Blumea 18: 478. 1970): König s.n. , Herb. Linn. No. 479.1 (LINN; iso- UPS). Current name: Aponogeton natans (L.) Engl. & K. Krause (Aponogetonaceae).Published as part of Jarvis, Charlie, 2007, Chapter 7: Linnaean Plant Names and their Types (part S), pp. 806-877 in Order out of Chaos. Linnaean Plant Types and their Types, London :Linnaean Society of London in association with the Natural History Museum on page 819, DOI: 10.5281/zenodo.29197
Wallace Holbrook Krause. / Baldwin.
Half-length portrait of a young boy. Light hand coloring.; Case: front cover detached, leather with bird design and two hook-and-eye locks, oval mat, burgundy velvet pad with impressed design.; Mat stamped in bottom left corner: Baldwin.; Non-contemporary note of identification on verso of Victorian calling card belonging to a Mrs. Edward W. Hobbie: Wallace Holbrook Krause Father of Frances K. Abbot and Sara B. Krause Hobbie husband of Etta Theresa Dudley Krause.; Title devised by cataloger
Krause y las artes
Libro de InvestigaciónSe aborda en este libro el estudio completo del sistema u organismo del arte bello dentro de la Estética de K. Ch. F. Krause, que comprende la teoría especial de las diferentes bellas artes: poesía, música, pintura, plástica, mímica, danza, drama, arquitectura y artes constructivas. Ya publicó este autor El pensamiento estético de Krause (con prólogo de E. M. Ureña, Universidad P. Comillas, LKM 2002), que ofrece una amplia base para insertar y valorar lo que ahora se expone, constituyendo de otro lado este sistema de las artes una pieza de singular interés y autonomía, a la hora de adentrarse en la reflexión y caracterización de cada una de las artes desde la filosofía krausiana. Además de la presentación de una teoría general de los estilos, esta completa clasificación se abre con la interesante noción de un arte bello de la vida, que observa la formación, fomento y cuidado de la belleza en todas las esferas de la vida, la cultura y la educación, aportando con ello una de las señas de identidad de la estética y la pedagogía krausista. De las variadas artes que Krause trata, cabe destacar la teoría a de la música, a la que dedicó numerosos trabajos, así como la arquitectura y las artes constructivas, donde el padre del krausismo hará aportaciones visionarias desde lo que hoy sería una perspectiva medioambiental o ecológica.This book exposes the complete study of the system or organism of fine art within the Aesthetics of K. Ch. F. Krause, which includes the special theory of the different fine arts: poetry, music, painting, mime, dance, drama, architecture and the building arts. This author has already published El pensamiento estético de Krause (with a prologue by E. M. Ureña, P. Comillas University, LKM 2002), which offers a wide basis to insert and value what is now exposed. This system of the arts has a singular interest and autonomy, when it comes to delving into the reflection and characterization of each of the arts from krausian Philosophy. After e presenting a general theory of styles, a complete classification of arts opens with the interesting notion of a fine art of life, which observes the formation, development and care of beauty in all spheres of life, culture and education,. This is one of the hallmarks of krausist Aesthetics and Pedagogy. Among the multiple arts that Krause adresses, it is possible to emphasize the theory to the music, to which he dedicated numerous works, as well as the architecture and the constructive arts, where the father of Krausism will make visionary contributions from what today would be an environmental perspective.info:eu-repo/semantics/publishedVersio
From single genomes to natural microbial communities : novel methods for the high-throughput analysis of genomic sequences
Krause L. From single genomes to natural microbial communities : novel methods for the high-throughput analysis of genomic sequences. Bielefeld (Germany): Bielefeld University; 2007.Advances in sequencing technologies provide the opportunity to rapidly produce vast genomic data sets at a low price. In particular, the recently developed, ultra-fast 454 pyrosequencing has dramatically reduced the cost and time requirements per sequenced base pair. Furthermore, novel methods have been developed that enable sequencing of the 99 percent of microbes that are difficult to access with conventional, culture-dependent approaches. These culture-independent methods launch the exciting field of metagenomics - the study of the collective genomes (metagenomes) of free-living microbial communities.
In light of the immense data sets produced, sequence analysis is still a contemporary, ongoing challenge in computational biology. Additionally, new demands arise from the short length of sequence reads produced by ultra-fast sequencing techniques. In the field of whole-genome research, accurate methods are required for identifying and functionally characterizing the gene content of organisms, thus reducing the required manual effort while at the same time producing high-quality annotations. On the other hand, metagenomes are nowadays routinely sequenced, and an increasing number of metagenomic projects is expected in the near future (Pennisi, 2007), but their computational analysis is still in its infancy.
In the presented thesis, state-of-the-art machine learning techniques as well as algorithmic and statistical methods are employed for the high-throughput analysis and characterization of large genomic data sets. First, the gene finding software GISMO was developed, which combines the search for protein domains using profile hidden Markov models (pHMMs) with a sequence composition-based classification using a Support Vector Machine. This combined strategy is able to unveil almost the complete gene content of prokaryotic genomes in a fully automated manner. GISMO has already been extensively employed in the international effort to "Annotate a Thousand Genomes" as well as in various genome annotation and re-annotation projects.
Furthermore, a novel gene finding algorithm for metagenomic data sets was developed. It is robust for most problems encountered when predicting genes in metagenomes, including short sequence length and low sequence quality. Thereby, the algorithm allows to hunt for novel, unknown genes carried by organisms that cannot be sequenced using conventional, culture dependent techniques.
Finally, methods were devised for characterizing short-read metagenomes obtained by pyrosequencing. Following the pHMM-based identification of gene fragments, the latter are categorized into functional groups. Additionally, the source organisms (taxonomic origins) of gene fragments are predicted. The resulting genetic and taxonomic profiles can in turn be used to unveil important trends in the gene content, metabolism, and species composition of the underlying microbial communities
Dioicodendron dioicum (K. Schum. & K. Krause) Steyerm. from Colombia collected by Z. Restrepo #9887
File Name: TOLI-24215-QUI-01-16-B10-22.jpg
CÓDIGO FOTO: TOLI-24215-QUI-01-16-B10-22-
Fotografía: SI
Nº TOLI: TOLI-24215
PARCELA: QUI-01
CÓDIGO: 16-B10-22
Nº COLECTA: 9887
NUEVOS COLECTORES: Wilmar López Oviedo
COLECTORES: Z. Restrepo
Nº MUESTRAS MONTADAS: 1
Homologación: Homologado
Nueva fecha del evento : 15/01/2019.
Fecha del evento: 31/10/2014.
Proyecto : Recursos Botánicos Disponibles en Línea (BRAVO) para la flora Colombiana
Hábitat: Bosque húmedo montano (bh-M)
Continente: SA
Pais: Colombia
Estado/Provincia: Quindío
Municipio: Salento
Localidad: Reserva Natural Quincuyal
Elevación minima en metros: 2066
Elevación maxima en metros: 2266
Latitud: 4.366
Longitud original: -75.678
datum geodésico: WGS 84
Latitud decimal: 4.366
Longitud decimal: -75.678
Identificado por: Humberto Mendoza
Fecha de identificación: 24/01/2019.
Familia antigua: Rubiaceae
Especie antigua: Psychotria cf. sylvivaga Standl.
Nombre cientifico: Dioicodendron dioicum (K. Schum. & K. Krause) Steyerm.
Reino: Plantae
Filo: Magnoliophyta
Clase: Equisetopsida
Orden: Gentianales
Familia nueva: Rubiaceae
Género nuevo: Dioicodendron
especie nueva: dioicum
Autoría del nombre científico: (K. Schum. & K. Krause) Steyerm.
: Rubiaceae
genero herbario: Dioicodendron
especie herbario: dioicum
Especie de herbario para TNRS: Dioicodendron dioicum
Especie corregida herbario y desde TNRS: Dioicodendron dioicum
Familia corregida desde TNRS: Rubiaceae
: 3274</p
Interview with Margaret K. Repash : living in Hellertown, Pa. during the Great Depression and World War II
This is an interview with Margaret K. Repash, conducted by Andrew Krause in 2002. In this interview, Repash describes her life growing up in the Lehigh Valley, specifically Hellertown, PA. She discusses her family\u27s experience of living through the Great Depression and World War II and how these events affected the Hellertown community. She explains how women went to work at the Bethlehem Steel to fill in for the men during the war, describing the different jobs they performed. She goes on to describe the public view of the war as well as the public view of women and their role during this time. Lastly, she describes what life was like after the war
Dioicodendron dioicum (K. Schum. & K. Krause) Steyerm. from Colombia collected by Z. Restrepo #5969
File Name: TOLI-23122-PAS-01-8-A1-30.jpg
CÓDIGO FOTO: TOLI-23122-PAS-01-8-A1-30-
Fotografía: SI
Nº TOLI: TOLI-23122
PARCELA: PAS-01
CÓDIGO: 8-A1-30
Nº COLECTA: 5969
NUEVOS COLECTORES: Wilmar López Oviedo
COLECTORES: Z. Restrepo
Nº MUESTRAS MONTADAS: 1
Homologación: Homologado
Nueva fecha del evento : 05/01/2019.
Fecha del evento: 24/09/2014.
Proyecto : Recursos Botánicos Disponibles en Línea (BRAVO) para la flora Colombiana
Hábitat: Bosque húmedo montano (bh-M)
Continente: SA
Pais: Colombia
Estado/Provincia: Quindío
Municipio: Salento
Localidad: Reserva Natural La Patasola
Elevación minima en metros: 2236
Elevación maxima en metros: 2436
Latitud: 4.695
Longitud original: -75.543
datum geodésico: WGS 84
Latitud decimal: 4.695
Longitud decimal: -75.543
Identificado por: Humberto Mendoza
Fecha de identificación: 24/01/2019.
Nombre cientifico: Dioicodendron dioicum (K. Schum. & K. Krause) Steyerm.
Reino: Plantae
Filo: Magnoliophyta
Clase: Equisetopsida
Orden: Gentianales
Familia nueva: Rubiaceae
Género nuevo: Dioicodendron
especie nueva: dioicum
Autoría del nombre científico: (K. Schum. & K. Krause) Steyerm.
: Rubiaceae
genero herbario: Dioicodendron
especie herbario: dioicum
Especie de herbario para TNRS: Dioicodendron dioicum
Especie corregida herbario y desde TNRS: Dioicodendron dioicum
Familia corregida desde TNRS: Rubiaceae
: 2233</p
Philodendron grandipes K. Krause
Philodendron grandipes K. Krause Material examined. Vicinity Cerro Pirre, 17 km S of El Real, along trail from base camp, along Río Perisenico; 0 8°01′N, 077°44′W; 100 m; 28 Jul. 1994; T. B. Croat 77177 (MO). Parque Nacional Darién, Serranía de Pirre, campamento Rancho Frío, cercano a la loma ensucia pecho; 07°59′49″N, 077°42′45″W; 636 m; 2 Aug. 2016; O. O. Ortiz 2666 (PMA). Identification. This species is characterized by having terrestrial habit, short internodes, fibrous persistent cataphylls, D-shaped petioles in cross section, broadly ovate blades, cordate at base, and inflorescences with green spathes. On Cerro Pirre, Philodendron grandipes is the only species of the genus that consistently have terrestrial habit. Due to the terrestrial habit and the ovate blades, it can be confused with individuals of the genus Adelonema, which differs substantially in having armed petioles and diminutive puberulent blades. Distribution and ecology. Colombia, Costa Rica, Ecuador, Nicaragua, and Panama. Philodendron grandipes ocurrs along the deciduous and evergreen forests of Cerro Pirre, between 100 and 800 m. It usually grows near banks and streams, in shady areas.Published as part of Ortiz, Orlando Oriel, de Stapf, María Sánchez, Baldini, Riccardo Maria & Croat, Thomas Bernard, 2019, Synopsis of aroids (Alismatales, Araceae) from Cerro Pirre (Darién Province, Panama), pp. 651-689 in Check List 15 (4) on page 678, DOI: 10.15560/15.4.65
Developing sense of coherence in educational contexts: Making progress in promoting mental health in children
The notion of salutogenesis was developed by Aaron Antonovsky to achieve a fundamental innovative approach to promoting mental health. Within the concept of salutogenesis, the author defined the sense of coherence (SOC) as a global life orientation, and he suggests that it emerges in the early years of childhood. In order to develop coherence and its components it is necessary to explore certain health resources. In this paper the following questions will be discussed: (1) which are the individual and social resources to keep healthy, and (2) how can these resources be activated? Selected empirical findings will be presented to respond to these research questions. The results show that resources such as self-worth and a sense of belonging are fundamental health factors. They can be developed most effectively in the early years of childhood and through the formal educational system, e.g. in kindergartens and primary schools. However, the findings show that professionals need to be trained to be able to deliver educational programmes in terms of salutogenesis. At the same time, experience shows that promoting health resources in children successfully depends on the participation of the parents and their support by the professional educators. This paper aims to present new ideas and experiences in the area of a practical realization of the concept of salutogenesis in educational systems. Particularly, health promotion programmes, for example 'The I am I programme' (Krause, 2009), could be implemented successfully in kindergartens with a high quota of children with an immigrant background, due to the fact that this programme includes the reflection and experience of cultural traditions, food, songs, dancing, and family rituals
Kiri K. Razumovski'le
Krause, Carl Christian, 1716-1793, anatoomiaprofessor LeipzigisRazumovski, Kirill, 1728-1803, Peterburi TA presidentTänukiri metseenluse ees
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