Institution
Swedish University of Agricultural Sciences
Education•Uppsala, 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.
Topics: Population, Soil water, Species richness, Biodiversity, Picea abies
Papers published on a yearly basis
Papers
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TL;DR: It is shown that a formula derived for the root: shoot ratio can also be applied under non-steady-state conditions and agreement is good but more exact knowledge of the relationship between nutrient status and photosynthesis is needed.
Abstract: It is shown how root : shoot ratios can be derived from two plant characteristics, (i) the nitrogen productivity (amount of biomass produced per unit of nitrogen in the biomass and per unit of time) and (ii) the relationship between photo-synthetic rate and internal nitrogen concentration. Derived root: shoot ratios are compared with experimental data for seedlings of seven tree species grown with stable internal nitrogen concentrations. Agreement is good but more exact knowledge of the relationship between nutrient status and photosynthesis is needed. It is shown that a formula derived for the root: shoot ratio can also be applied under non-steady-state conditions.
234 citations
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TL;DR: In vivo changes in the intra-luminal milieu of the oviduct of pigs and cows are reviewed which relate to the modulation of sperm capacitation around spontaneous ovulation, thus maximizing the chances of normal fertilization.
234 citations
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TL;DR: The results suggest that recruitment is primarily dependent on germination substrate but also negatively correlated with the density of the tree layer, and that long-term structural stability with climatically induced minor variations may be an alternative model.
Abstract: . A high-altitude boreal Picea abies forest, with tree ages of up to 410 yr, was studied with respect to age structure, spatial regeneration patterns, and substrate. The results suggest that recruitment is primarily dependent on germination substrate but also negatively correlated with the density of the tree layer. 60 % of all spruces < 1.3 m high grew on substrates connected with tree-fall; ca. 40 % were found on decomposing logs and stumps, covering only ca. 6 % of the forest floor. Individual logs remain important as a regeneration substrate for ca. 150 yr. Continuous presence of decomposing coarse wood is a condition for the maintenance of the population structure under the prevailing climatic conditions. Peaks in the age distribution (the 1870's and the 1940's - 1950's) are probably climatically induced. The results challenge the previous assumptions that this kind of forest undergoes cyclic development. Long-term structural stability with climatically induced minor variations may be an alternative model.
234 citations
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TL;DR: The results indicate that coexisting nirS and nirK denitrifier communities are not under the same community assembly rules in different environments.
Abstract: The conversion of nitrite to nitric oxide in the denitrification pathway is catalyzed by at least two structurally dissimilar nitrite reductases, NirS and NirK. Although they are functionally equivalent, a genome with genes encoding both reductases has yet to be found. This exclusivity raises questions about the ecological equivalency of denitrifiers with either nirS or nirK, and how different ecological and evolutionary factors influence community assembly of nirS and nirK denitrifiers. Using phylogeny-based methods for analyzing community structure, we analyzed nirS and nirK data sets compiled from sequence repositories. Global patterns of phylogenetic community structure were determined using Unifrac, whereas community assembly processes were inferred using different community relatedness metrics. Similarities between globally distributed communities for both genes corresponded to similarities in habitat salinity. The majority of communities for both genes were phylogenetically clustered; however, nirK marine communities were more phylogenetically overdispersed than nirK soil communities or nirS communities. A more in-depth analysis was performed using three case studies in which a comparison of nirS and nirK community relatedness within the sites could be examined along environmental gradients. From these studies we observed that nirS communities respond differently to environmental gradients than nirK communities. Although it is difficult to attribute nonrandom patterns of phylogenetic diversity to specific niche-based or neutral assembly processes, our results indicate that coexisting nirS and nirK denitrifier communities are not under the same community assembly rules in different environments.
234 citations
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University of Waterloo1, Australian National University2, University of Georgia3, Commonwealth Scientific and Industrial Research Organisation4, University of Melbourne5, University of Maryland Center for Environmental Science6, University of Western Ontario7, University of Oldenburg8, Charles University in Prague9, International Centre of Insect Physiology and Ecology10, Natural Resources Canada11, Remote Sensing Center12, Saint Mary's University13, The Chinese University of Hong Kong14, University of Maryland, College Park15, Osaka Prefecture University16, Yokohama National University17, Swedish University of Agricultural Sciences18, Stockholm University19, University of Florence20, Institut national de la recherche agronomique21, Dalle Molle Institute for Artificial Intelligence Research22, University of Kassel23, IFREMER24, Lund University25, Carnegie Mellon University26
TL;DR: By learning to work together and recognise the contribution of all team members and participants, it is believed that the authors will have a strong scientific and social basis to address the environmental problems of the 21st Century.
Abstract: Environmental processes have been modelled for decades. However. the need for integrated assessment and modeling (IAM) has,town as the extent and severity of environmental problems in the 21st Century worsens. The scale of IAM is not restricted to the global level as in climate change models, but includes local and regional models of environmental problems. This paper discusses various definitions of IAM and identifies five different types of integration that Lire needed for the effective solution of environmental problems. The future is then depicted in the form of two brief scenarios: one optimistic and one pessimistic. The current state of IAM is then briefly reviewed. The issues of complexity and validation in IAM are recognised as more complex than in traditional disciplinary approaches. Communication is identified as a central issue both internally among team members and externally with decision-makers. stakeholders and other scientists. Finally it is concluded that the process of integrated assessment and modelling is considered as important as the product for any particular project. By learning to work together and recognise the contribution of all team members and participants, it is believed that we will have a strong scientific and social basis to address the environmental problems of the 21st Century.
234 citations
Authors
Showing all 13653 results
Name | H-index | Papers | Citations |
---|---|---|---|
Svante Pääbo | 147 | 407 | 84489 |
Lars Klareskog | 131 | 697 | 63281 |
Stephen Hillier | 129 | 1138 | 83831 |
Carol V. Robinson | 123 | 670 | 51896 |
Jun Yu | 121 | 1174 | 81186 |
Peter J. Anderson | 120 | 966 | 63635 |
David E. Clapham | 119 | 382 | 58360 |
Angela M. Gronenborn | 113 | 568 | 44800 |
David A. Wardle | 110 | 409 | 70547 |
Agneta Oskarsson | 106 | 766 | 40524 |
Jack S. Remington | 103 | 481 | 38006 |
Hans Ellegren | 102 | 349 | 39437 |
Per A. Peterson | 102 | 356 | 35788 |
Malcolm J. Bennett | 99 | 439 | 37207 |
Gunnar E. Carlsson | 98 | 466 | 32638 |