Your search keyword '"William H. Conner"' showing total 3 results

1. Divergent biotic and abiotic filtering of root endosphere and rhizosphere soil fungal communities along ecological gradients

Author

William H. Conner, Elizabeth R. Kimbrough, Sunshine A. Van Bael, Ken W. Krauss, Candice Y. Lumibao, and Richard H. Day

Subjects

0106 biological sciences, 0301 basic medicine, Wetland, Biology, Plant Roots, 01 natural sciences, Applied Microbiology and Biotechnology, Microbiology, Taxodium, Soil, 03 medical and health sciences, Ecosystem, Soil Microbiology, Abiotic component, Rhizosphere, geography, Biotic component, geography.geographical_feature_category, Bacteria, Ecology, Host (biology), Microbiota, fungi, Fungi, food and beverages, biology.organism_classification, Salinity, 030104 developmental biology, Mycobiome, 010606 plant biology & botany

Abstract

Plant roots assemble in two distinct microbial compartments: the rhizosphere (microbes in soil surrounding roots) and the endosphere (microbes within roots). Our knowledge of fungal community assembly in these compartments is limited, especially in wetlands. We tested the hypothesis that biotic factors would have direct effects on rhizosphere and endosphere assembly, while abiotic factors would have direct and indirect effects. Using a field study, we examined the influences of salinity, water level and biotic factors on baldcypress (Taxodium distichum) fungal communities. We found that endosphere fungi, unlike rhizosphere fungi, were correlated with host density and canopy cover, suggesting that hosts can impose selective filters on fungi colonizing their roots. Meanwhile, local abiotic conditions strongly influenced both rhizosphere and endosphere diversity in opposite patterns, e.g. highest endosphere diversity (hump-shaped) and lowest rhizosphere diversity (U-shaped) at intermediate salinity levels. These results indicate that the assembly and structure of the root endosphere and rhizosphere within a host can be shaped by different processes. Our results also highlight the importance of assessing how environmental changes affect plant and plant-associated fungal communities in wetland ecosystems where saltwater intrusion and sea level rise are major threats to both plant and fungal communities.

Published

2020

2. Long-term tree productivity of a South Carolina coastal plain forest across a hydrology gradient

Author

Thomas M. Williams, Bo Song, Jeffery T. Vernon, and William H. Conner

Subjects

Hydrology, geography, geography.geographical_feature_category, Ecology, Environmental change, Coastal plain, Diameter at breast height, Primary production, Wetland, Plant Science, Plant litter, Hydrology (agriculture), Productivity (ecology), Environmental science, Ecology, Evolution, Behavior and Systematics

Abstract

Aims In recent years, there has been an increased interest in examining changes in forest systems in response to drought, flooding, hurricanes and climate change. In the southern United States, forested wetlands are of special interest because of the extent of these forests. Coastal plain forested wetlands are among the most vulnerable to these climatic impacts. One of the problems in developing management practices for these coastal areas is the difficulty in adequately describing productivity relations and predicting how the structure and function of these communities might be affected by natural or anthropogenic disturbances. Community response to environmental change often occurs over a period of years, and the majority of reported studies are for 1–3 years in duration. This study documents long-term changes (10 years) in structure, composition and growth along a catena of high water table forested sites of an ancient beach ridge landscape in coastal South Carolina. Methods Aboveground net primary production (ANPP) of trees was monitored from 2000 to 2009 on three sites within a longleaf pine-swamp blackgum forest system on the southern end of the Waccamaw Neck area of Georgetown County, SC. Permanent study plots (20 3 25 m) were established across a moisture gradient (Dry, Intermediate, and Wet). Water levels were continuously monitored, litterfall was measured monthly and growth of trees >10 cm diameter at breast height was monitored on an annual basis. Annual litterfall and tree production values were summed to provide estimates of ANPP. Important Findings The study site was under severe drought conditions July 2001 through late summer 2002 and again in 2007. Diameter growth was affected in all three sites, but with different patterns. It seems that diameter growth in the Wet site was more sensitive to drought conditions in 2001–02 and 2007 than either Dry or Intermediate sites. While droughts did not seem to have a significant impact on litterfall in the Wet site, litterfall in the Intermediate site was more sensitive to the drought than either Dry or Wet sites. ANPP was significantly lower in both Intermediate and Wet sites in 2001 at 1 000 g/m) occurred in the Intermediate and Wet sites in 2003 following a return to more normal water levels at the end of the drought. Maximum tree production occurred on the Wet site in 2003 (657 g/m), which exceeded total ANPP of any site in 2001. In the Dry site, ANPP remained relatively consistent throughout the study when compared to Wet and Intermediate sites. While litterfall estimates are well defined with 3–5 years of data, data collection is continuing to assess impact of drought on stem growth across the gradient, which is still not clear with 10 years of data.

Published

2011

3. Artificial Regeneration of Baldcypress in a Louisiana Crayfish Pond

Author

William H. Conner, John R. Toliver, and G. R. Askew

Subjects

Fishery, Environmental science, Artificial regeneration, Forestry, Plant Science, Crayfish

Abstract

Baldcypress (Taxodium distichum [L.] Rich.) seedlings were planted in a Louisiana crayfish pond to evaluate the effect of planting date on growth and survival. Storage techniques also were evaluated against containerized seedlings to determine the best method of holding seedlings fordelayed plantings. Seedlings planted in February had better survival and grew better than seedlings planted in July. Cold storage of bareroot seedlings was superior to tub storage or containerization for both survival and height growth. Planting baldcypress seedlings in crayfish ponds representsa viable multiple-use alternative for aquaculture operations. South. J. Appl. For. 17(1):54-57.

Published

1993