James Grace, Ph.D. (Former Employee)
Science and Products
Filter Total Items: 187
Controls of biological soil crust cover and composition shift with succession in sagebrush shrub-steppe Controls of biological soil crust cover and composition shift with succession in sagebrush shrub-steppe
Successional stage may determine strength and causal direction of interactions among abiotic and biotic factors; e.g., species that facilitate the establishment of other species may later compete with them. We evaluated multivariate hypotheses about abiotic and biotic factors shaping biological soil crusts (BSCs) in early and late successional stages. We surveyed vegetation and BSC in...
Authors
E. Dettweiler-Robinson, J.D. Bakker, J.B. Grace
How does pedogenesis drive plant diversity? How does pedogenesis drive plant diversity?
Some of the most species-rich plant communities occur on ancient, strongly weathered soils, whereas those on recently developed soils tend to be less diverse. Mechanisms underlying this well-known pattern, however, remain unresolved. Here, we present a conceptual model describing alternative mechanisms by which pedogenesis (the process of soil formation) might drive plant diversity. We...
Authors
Etienne Laliberte, James B. Grace, Michael A. Huston, Hans Lambers, Francois P. Teste, Benjamin L. Turner, David A. Wardle
Streams in the urban heat island: spatial and temporal variability in temperature Streams in the urban heat island: spatial and temporal variability in temperature
Streams draining urban heat islands tend to be hotter than rural and forested streams at baseflow because of warmer urban air and ground temperatures, paved surfaces, and decreased riparian canopy. Urban infrastructure efficiently routes runoff over hot impervious surfaces and through storm drains directly into streams and can lead to rapid, dramatic increases in temperature. Thermal...
Authors
Kayleigh A. Somers, Emily S. Bernhardt, James B. Grace, Brooke A. Hassett, Elizabeth B. Sudduth, Siyi Wang, Dean L. Urban
A causal examination of the effects of confounding factors on multimetric indices A causal examination of the effects of confounding factors on multimetric indices
The development of multimetric indices (MMIs) as a means of providing integrative measures of ecosystem condition is becoming widespread. An increasingly recognized problem for the interpretability of MMIs is controlling for the potentially confounding influences of environmental covariates. Most common approaches to handling covariates are based on simple notions of statistical control...
Authors
Donald R. Schoolmaster, James B. Grace, E. William Schweiger, Brian R. Mitchell, Glenn R. Guntenspergen
Temporal shifts in top-down vs. bottom-up control of epiphytic algae in a seagrass ecosystem Temporal shifts in top-down vs. bottom-up control of epiphytic algae in a seagrass ecosystem
In coastal marine food webs, small invertebrate herbivores (mesograzers) have long been hypothesized to occupy an important position facilitating dominance of habitat-forming macrophytes by grazing competitively superior epiphytic algae. Because of the difficulty of manipulating mesograzers in the field, however, their impacts on community organization have rarely been rigorously...
Authors
Matthew A. Whalen, J. Emmett Duffy, James B. Grace
Structural equation modeling and the analysis of long-term monitoring data Structural equation modeling and the analysis of long-term monitoring data
The analysis of long-term monitoring data is increasingly important; not only for the discovery and documentation of changes in environmental systems, but also as an enterprise whose fruits validate the allocation of effort and scarce funds to monitoring. In simple terms, we may distinguish between the detection of change in some ecosystem attribute versus the investigation of causes and
Authors
James B. Grace, Jon E. Keeley, Darren Johnson, A Kenneth Bollen
Science and Products
Filter Total Items: 187
Controls of biological soil crust cover and composition shift with succession in sagebrush shrub-steppe Controls of biological soil crust cover and composition shift with succession in sagebrush shrub-steppe
Successional stage may determine strength and causal direction of interactions among abiotic and biotic factors; e.g., species that facilitate the establishment of other species may later compete with them. We evaluated multivariate hypotheses about abiotic and biotic factors shaping biological soil crusts (BSCs) in early and late successional stages. We surveyed vegetation and BSC in...
Authors
E. Dettweiler-Robinson, J.D. Bakker, J.B. Grace
How does pedogenesis drive plant diversity? How does pedogenesis drive plant diversity?
Some of the most species-rich plant communities occur on ancient, strongly weathered soils, whereas those on recently developed soils tend to be less diverse. Mechanisms underlying this well-known pattern, however, remain unresolved. Here, we present a conceptual model describing alternative mechanisms by which pedogenesis (the process of soil formation) might drive plant diversity. We...
Authors
Etienne Laliberte, James B. Grace, Michael A. Huston, Hans Lambers, Francois P. Teste, Benjamin L. Turner, David A. Wardle
Streams in the urban heat island: spatial and temporal variability in temperature Streams in the urban heat island: spatial and temporal variability in temperature
Streams draining urban heat islands tend to be hotter than rural and forested streams at baseflow because of warmer urban air and ground temperatures, paved surfaces, and decreased riparian canopy. Urban infrastructure efficiently routes runoff over hot impervious surfaces and through storm drains directly into streams and can lead to rapid, dramatic increases in temperature. Thermal...
Authors
Kayleigh A. Somers, Emily S. Bernhardt, James B. Grace, Brooke A. Hassett, Elizabeth B. Sudduth, Siyi Wang, Dean L. Urban
A causal examination of the effects of confounding factors on multimetric indices A causal examination of the effects of confounding factors on multimetric indices
The development of multimetric indices (MMIs) as a means of providing integrative measures of ecosystem condition is becoming widespread. An increasingly recognized problem for the interpretability of MMIs is controlling for the potentially confounding influences of environmental covariates. Most common approaches to handling covariates are based on simple notions of statistical control...
Authors
Donald R. Schoolmaster, James B. Grace, E. William Schweiger, Brian R. Mitchell, Glenn R. Guntenspergen
Temporal shifts in top-down vs. bottom-up control of epiphytic algae in a seagrass ecosystem Temporal shifts in top-down vs. bottom-up control of epiphytic algae in a seagrass ecosystem
In coastal marine food webs, small invertebrate herbivores (mesograzers) have long been hypothesized to occupy an important position facilitating dominance of habitat-forming macrophytes by grazing competitively superior epiphytic algae. Because of the difficulty of manipulating mesograzers in the field, however, their impacts on community organization have rarely been rigorously...
Authors
Matthew A. Whalen, J. Emmett Duffy, James B. Grace
Structural equation modeling and the analysis of long-term monitoring data Structural equation modeling and the analysis of long-term monitoring data
The analysis of long-term monitoring data is increasingly important; not only for the discovery and documentation of changes in environmental systems, but also as an enterprise whose fruits validate the allocation of effort and scarce funds to monitoring. In simple terms, we may distinguish between the detection of change in some ecosystem attribute versus the investigation of causes and
Authors
James B. Grace, Jon E. Keeley, Darren Johnson, A Kenneth Bollen