Your search keyword '"Silvertown, J."' showing total 7 results

1. Experimental investigation of the origin of fynbos plant community structure after fire.

Author

Silvertown J, Araya YN, Linder HP, and Gowing DJ

Subjects

Biodiversity, Biomass, DNA Barcoding, Taxonomic, Ecosystem, Fires, Hydrology, Magnoliopsida growth & development, Plant Roots growth & development, Plant Roots physiology, Seedlings growth & development, Seeds growth & development, Seeds physiology, Soil, South Africa, Species Specificity, Magnoliopsida physiology, Seedlings physiology, Water physiology

Abstract

Background and Aims: Species in plant communities segregate along fine-scale hydrological gradients. Although this phenomenon is not unique to fynbos, this community regenerates after fire and therefore provides an opportunity to study the ecological genesis of hydrological niche segregation., Methods: Following wildfires at two field sites where we had previously mapped the vegetation and monitored the hydrology, seeds were moved experimentally in >2500 intact soil cores up and down soil-moisture gradients to test the hypothesis that hydrological niche segregation is established during the seedling phase of the life cycle. Seedling numbers and growth were then monitored and they were identified using DNA bar-coding, the first use of this technology for an experiment of this kind., Key Results: At the site where niche segregation among Restionaceae had previously been found, the size of seedlings was significantly greater, the wetter the location into which they were moved, regardless of the soil moisture status of their location of origin, or of the species. Seedling weight was also significantly greater in a competition treatment where the roots of other species were excluded. No such effects were detected at the control site where niche segregation among Restionaceae was previously found to be absent., Conclusions: The finding that seedling growth on hydrological gradients in the field is affected by soil moisture status and by root competition shows that hydrological niche segregation could potentially originate in the seedling stage. The methodology, applied at a larger scale and followed-through for a longer period, could be used to determine whether species are differently affected by soil moisture.

Published

2012

2. Gap Colonization as a Source of Grassland Community Change: Effects of Gap Size and Grazing on the Rate and Mode of Colonization by Different Species

Author

Bullock, J. M., Hill, B. Clear, Silvertown, J., and Sutton, M.

Published

1995

3. An Experimental Study of the Effects of Sheep Grazing on Vegetation Change in a Species-Poor Grassland and the Role of Seedling Recruitment Into Gaps

Author

Bullock, J. M., Hill, B. Clear, Dale, M. P., and Silvertown, J.

Published

1994

4. Demography of Cirsium Vulgare in a Grazing Experiment

Author

Bullock, J. M., Hill, B. Clear, and Silvertown, J.

Published

1994

5. Interactive Effects of Disturbance and Shade upon Colonization of Grassland: An Experiment with Anthriscus sylvestris (L.) Hoffm., Conium maculatum L., Daucus carota L. and Heracleum sphondylium L.

Author

Silvertown, J. and Tremlett, M.

Published

1989

6. Spatial Variation in the Seed Ecology of a Woodland Herb (Primula vulgaris) in Relation to Light Environment

Author

Valverde, T. and Silvertown, J.

Published

1995

7. Population Cycles Caused by Overcompensating Density-Dependence in an Annual Plant

Author

Silvertown, J.

Published

1986