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| DOI: | 10.1111/j.1365-2745.2006.01145.x |
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| Web URL(s): | https://besjournals.onlinelibrary.wiley.com/doi/full/10.1111/j.1365-2745.2006.01145.x
Last checked: 07/09/2018
Access conditions: Item is within a limited-access website
https://besjournals.onlinelibrary.wiley.com/doi/pdf/10.1111/j.1365-2745.2006.01145.x
Last checked: 07/09/2018
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| Publication Type:
| Refereed |
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| Author(s): | Silvertown, Jonathan;
Poulton, Paul;
Johnston, Edward;
Edwards, Grant;
Heard, Matthew;
Biss, Pamela M. |
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| Author Affiliation: | Silvertown, Biss: Department of Biological Sciences, The Open University, Walton Hall, Milton Keynes, UK; Pouton, Johnston: Rothamsted Research, Harpenden, Hertfordshire, UK; Edwards: Agriculture Group, Field Services Centre, Lincoln University, Canterbury, New Zealand; Heard: Centre for Ecology and Hydrology, Monks Wood, Abbots Ripton, Huntingdon, Cambs. |
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| Title: | The Park Grass Experiment 1856-2006: Its contribution to ecology |
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| Section: | Mechanisms driving community structure
Other records with the "Mechanisms driving community structure" Section
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| Source: | Journal of Ecology. Vol. 94, No. 4, July 2006, p. 801-814. |
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| Publishing Information: | Blackwell Scientific Publications |
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| # of Pages: | 14 |
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| Keywords: | TIC Keywords: Adaptation; Biodiversity; Climatic factors; Experimental design; Genetic drift; History; Nutrient availability; Plant ecology; Population dynamics; Research facilities; Soil acidity
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| Facility Names: | The Park Grass Experiment Site, in Hertfordshire, England |
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| Abstract/Contents: | " * 1 The Park Grass Experiment, begun in 1856, is the oldest ecological experiment in existence. Its value to science has changed and grown since it was founded to answer agricultural questions. In recent times the experiment has shown inter alia how: plant species richness, biomass and pH are related; community composition responds to climatic perturbation and nutrient additions; soil is acidified and corrected by liming. It also provided one of the first demonstrations of the evolution of adaptation at a very local scale and contains a putative case of the evolution of reproductive isolation by reinforcement. The application of molecular genetic markers to archived plant material promises to reveal a whole new chapter of genetic detail about the long-term dynamics of plant populations. * 2 Over the range of values observed at Park Grass, biomass (productivity) has a negative effect upon species richness. Any positive effect of species richness on productivity could only be weak by comparison. The experiment provides support for both the competitive exclusion and pool size hypotheses for determination of species density. * 3 Instantaneous comparisons of species richness between plots do not accurately reflect temporal rates of loss which may be multiplicative rather than additive. This suggests that comparisons among sites, nutrient inputs, especially N treatments, or soil acidity may in general underestimate the threat posed to plant species diversity by long-term changes in plant nutrient availability, both enrichment and depletion. * 4 Differences between plots at the community level are maintained despite a flow of propagules between plots. There is no strong evidence for a spatial mass effect. * 5 Guild (grass/legume/other) compositions of plant communities have equilibrated, but the species composition within guilds is more dynamic and continues to change over time, suggesting that species and guild abundances are independently regulated. * 6 At least some members of all the major trophic levels, including predators (spiders), herbivores (leafhoppers) and detritivores (springtails) are treatment-specific in their distributions. * 7 Plant populations on Park Grass are subdivided by treatments which, to some degree, have led to plots becoming genetically isolated from one another and decoupled demographically. This subdivision has created a metapopulation structure in each species, characterized by species-specific rates of local colonization and extinction. * 8 Inverse clines in flowering time occur in the grass Anthoxanthum odoratum across some plot boundaries. These suggest that reproductive isolation between plots has been reinforced by natural selection. * 9 Drift as well as selection may have taken place in A. odoratum, especially on plots where effective population size is restricted by population bottlenecks caused by drought. * 10 Park Grass illustrates how long-term experiments grow in value with time and how they may be used to investigate scientific questions that were inconceivable at their inception. This is as likely to be true of the future of Park Grass as it has proved to be of its past." |
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| Language: | English |
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| References: | 76 |
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| Note: | Pictures, b/w
Figures
Graphs |
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| ASA/CSSA/SSSA Citation (Crop Science-Like - may be incomplete):
Silvertown, J., P. Poulton, E. Johnston, G. Edwards, M. Heard, and P. M. Biss. 2006. The Park Grass Experiment 1856-2006: Its contribution to ecology. J. Ecol. 94(4):p. 801-814. |
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| DOI: 10.1111/j.1365-2745.2006.01145.x |
| Web URL(s):
https://besjournals.onlinelibrary.wiley.com/doi/full/10.1111/j.1365-2745.2006.01145.x
Last checked: 07/09/2018
Access conditions: Item is within a limited-access website
https://besjournals.onlinelibrary.wiley.com/doi/pdf/10.1111/j.1365-2745.2006.01145.x
Last checked: 07/09/2018
Requires: PDF Reader
Access conditions: Item is within a limited-access website |
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MSU catalog number: b2218287 |
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