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Institution

Swedish University of Agricultural Sciences

EducationUppsala, Sweden
About: Swedish University of Agricultural Sciences is a education organization based out in Uppsala, Sweden. It is known for research contribution in the topics: Population & Soil water. The organization has 13510 authors who have published 35241 publications receiving 1414458 citations. The organization is also known as: Sveriges Lantbruksuniversitet & SLU.


Papers
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Journal ArticleDOI
TL;DR: The muscle fibre composition, fibre areas and enzyme activities were determined in muscle biopsy samples from both legs of 34 clinically healthy men and 31 clinically healthy women and found to be similar at different ages in both men and women, but changes in fibre areas were observed.
Abstract: Muscle fibre composition, fibre areas and enzyme activities were determined in muscle biopsy samples (m. vastus lateralis) from both legs of 34 clinically healthy men and 31 clinically healthy women (aged 20-70 years). No significant difference was found in any of the three variables between the right and left leg. In the whole material the mean percentage of type I fibres was significantly higher in men, whereas that of type IIA fibres was significantly higher in women (men 58% I, 27% IIA, 13% IIB, women 51% I, 32% IIA, 15% IIB). The areas of all fibre types were significantly larger in men than in women. When the subjects were divided into age groups of 20, 30, 40, 50, 60 and 70 years, respectively, the fibre composition was found to be similar at different ages in both men and women, but changes in fibre areas were observed. The 70-year-old men and women showed significantly reduced areas of both type I and II fibres compared with the 60-year-olds. Only minor changes were seen in enzyme activities in relation to age. Men of the youngest age group had significantly higher levels of citrate synthase activity than those of the older age groups. Similar findings were seen for women except for the 60-year-olds, who had as high activity levels of citrate synthase as the 20-year-olds.

249 citations

Journal ArticleDOI
TL;DR: It is shown that the two genes, ATP5A1 and CHD1, so far assigned to the female-specific W chromosome of birds both exist in a very closely related copy on the Z chromosome but are not pseudoautosomal, indicating a common ancestry of the two sex chromosomes, consistent with the evolution from a pair of autosomes.
Abstract: Among the mechanisms whereby sex is determined in animals, chromosomal sex determination is found in a wide variety of distant taxa. The widespread but not ubiquitous occurrence, not even within lineages, of chromosomal sex determination suggests that sex chromosomes have evolved independently several times during animal radiation, but firm evidence for this is lacking. The most favored model for this process is gradual differentiation of ancestral pairs of autosomes. As known for mammals, sex chromosomes may have a very ancient origin, and it has even been speculated that the sex chromosomes of mammals and birds would share a common chromosomal ancestry. In this study we showed that the two genes, ATP5A1 and CHD1, so far assigned to the female-specific W chromosome of birds both exist in a very closely related copy on the Z chromosome but are not pseudoautosomal. This indicates a common ancestry of the two sex chromosomes, consistent with the evolution from a pair of autosomes. Comparative mapping demonstrates, however, that ATP5A1 and CHD1 are not sex-linked among eutherian mammals; this is also not the case for the majority of other genes so far assigned to the avian Z chromosome. Our results suggest that the evolution of sex chromosomes has occurred independently in mammals and birds.

249 citations

Journal ArticleDOI
TL;DR: This contribution surveys major aspects of physiological and morphological factors affecting N-and P-efficiency.
Abstract: Genetic variation in nutrient efficiency may be attributed to two multifactorial components: (i) genotypes may differ in the efficiency with which the nutrients in the plant are utilized to produce yield (utilization efficiency) and/or (ii) they may differ in their effectiveness in absorbing nutrients from the soil (uptake efficiency). This contribution surveys major aspects of physiological and morphological factors affecting N-and P-efficiency. The potential importance of the various factors is discussed and exemplified mainly by own experimental work. Ursachen fur genetische Unterschiede in der Nahrstoffeffizienz bei Kulturpflanzen Genetische Unterschiede in der Nahrstoffeffizienz konnen auf zwei Komponenten beruhen: (i) auf der Effizienz mit der die aufgenommenen Nahrstoffe fur die Ertragsbildung genutzt werden (Verwertungseffizienz), und (ii) auf der Effizienz der Nahrstoffaufnahme (Aufnahmeeffizienz). Es wird ein Uberblick uber die beteiligten morphologischen und physiologischen Ursachen fur diese Unterschiede gegeben. Die mogliche Bedeutung der verschiedenen Faktoren wird an Beispielen vornehmlich aus eigenen Arbeiten diskutiert.

249 citations

Journal ArticleDOI
TL;DR: In this paper, the authors studied C and N mineralisation patterns from a large number of plant materials (76 samples, covering 37 species and several plant parts), and quantified how these patterns related to biological origin and selected indicators of chemical composition.
Abstract: We studied C and N mineralisation patterns from a large number of plant materials (76 samples, covering 37 species and several plant parts), and quantified how these patterns related to biological origin and selected indicators of chemical composition. We determined C and N contents of whole plant material, in water soluble material and in fractions (neutral detergent soluble material, cellulose, hemicellulose and lignin) obtained by stepwise chemical digestion (modified van Soest method). Plant materials were incubated in a sandy soil under standardised conditions (15 °C, optimal water content, no N limitation) for 217 days, and CO2 evolution and soil mineral N contents were monitored regularly. The chemical composition of the plant materials was very diverse, as indicated by total N ranging from 2 to 59 mg N g−1, (i.e. C/N-ratios between 7 and 227). Few materials were lignified (median lignin=4% of total C). A large proportion of plant N was found in the neutral detergent soluble (NDS) fraction (average 84%) but less of the plant C (average 46%). Over the entire incubation period, holocellulose C content was the single factor that best explained the variability of C mineralisation (r=−0.73 to −0.82). Overall, lignin C explained only a small proportion of the variability in C mineralisation (r=−0.44 to −0.51), but the higher the lignin content, the narrower the range of cumulative C mineralisation. Initial net N mineralisation rate was most closely correlated (r=0.76) to water soluble N content of the plant materials, but from Day 22, net N mineralisation was most closely correlated to total plant N and NDS-N contents (r varied between 0.90 and 0.94). The NDS-N content could thus be used to roughly categorise the net N mineralisation patterns into (i) sustained net N immobilisation for several months; (ii) initial net N immobilisation, followed by some re-mineralisation; and (iii) initially rapid and substantial net N mineralisation. Contrary to other studies, we did not find plant residue C/N or lignin/N-ratio to be closely correlated to decomposition and N mineralisation.

248 citations

Journal ArticleDOI
TL;DR: Heritabilities and genetic correlations for mastitis, SCC, and milk production in first lactation were calculated using data from the Swedish disease recording system and showed a slightly unfavorable genetic correlation with mastitis and SCC.

248 citations


Authors

Showing all 13653 results

NameH-indexPapersCitations
Svante Pääbo14740784489
Lars Klareskog13169763281
Stephen Hillier129113883831
Carol V. Robinson12367051896
Jun Yu121117481186
Peter J. Anderson12096663635
David E. Clapham11938258360
Angela M. Gronenborn11356844800
David A. Wardle11040970547
Agneta Oskarsson10676640524
Jack S. Remington10348138006
Hans Ellegren10234939437
Per A. Peterson10235635788
Malcolm J. Bennett9943937207
Gunnar E. Carlsson9846632638
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Performance
Metrics
No. of papers from the Institution in previous years
YearPapers
2023116
2022252
20212,311
20201,957
20191,787
20181,624