Open Access. Powered by Scholars. Published by Universities.®
Articles 1 - 2 of 2
Full-Text Articles in Agriculture
Modelling Emergent Patterns Of Dynamic Desert Ecosystems, J. Stewart, A. J. Parson, J. Wainwright, G. S. Okin, B. T. Bestelmeyer, E. L. Frederickson, W. H. Schlesinger
Modelling Emergent Patterns Of Dynamic Desert Ecosystems, J. Stewart, A. J. Parson, J. Wainwright, G. S. Okin, B. T. Bestelmeyer, E. L. Frederickson, W. H. Schlesinger
Ed L. Frederickson
In many desert ecosystems vegetation is both patchy and dynamic: vegetated areas are interspersed with patches of bare ground, and both the positioning and the species composition of the vegetated areas exhibit change through time. These characteristics lead to the emergence of multi-scale patterns in vegetation that arise from complex relationships between plants, soils and transport processes. Previous attempts to probe the causes of spatial complexity and predict responses of desert ecosystems tend to be limited in their focus: models of dynamics have been developed with no consideration of the inherent patchiness in the vegetation, or else models have been …
Within-Plant Distribution Of Volatile Compounds On The Leaf Surface Of Flourensia Cernua, Rick Estell, Darren James, Ed Frederickson, Dean Anderson
Within-Plant Distribution Of Volatile Compounds On The Leaf Surface Of Flourensia Cernua, Rick Estell, Darren James, Ed Frederickson, Dean Anderson
Ed L. Frederickson
We are using Flourensia cernua as a shrub model to study how terpenes affect livestock herbivory. Two experiments were conducted to examine distribution of volatile chemicals within a plant in an effort to minimize sample variability. In Experiment 1, leaves (current year's growth) were collected from 20 tarbush plants. Two leaders were sampled from each of three positions (outer canopy, subcanopy, and basal) in all four quadrants (based on ordinal direction). In Experiment 2, 10 leaders of current year's growth were removed from another 20 plants. Leaders were collected from the outer canopy of each quadrant and separated into thirds …