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1. Long-Term Effects of Repeated Prescribed Fire and Fire Surrogate Treatments on Forest Soil Chemistry in the Southern Appalachian Mountains (USA)

Author

Christopher J. Dukes, T. Adam Coates, Donald L. Hagan, W. Michael Aust, Thomas A. Waldrop, and Dean M. Simon

Subjects
fuels reduction, ecosystem restoration, wildfire hazard, silviculture, carbon, nitrogen, Physics, QC1-999
Abstract

From 2001–2018, a series of fuel reduction and ecosystem restoration treatments were implemented in the southern Appalachian Mountains near Asheville, North Carolina, USA. Treatments consisted of prescribed fire (four burns), mechanical cutting of understory shrubs and mid-story trees (two cuttings), and a combination of both cutting and prescribed fire (two cuts + four burns). Soils were sampled in 2018 to determine potential treatment impacts for O horizon and mineral soil (0–10 cm depth) carbon (C) and nitrogen (N) and mineral soil calcium (Ca), magnesium (Mg), phosphorus (P), potassium (K), and pH. Results suggested that mean changes in O horizon C and N and mineral soil C, N, C:N, Ca, and P from 2001–2018 differed between the treatments, but only mineral soil C, N, C:N, and Ca displayed differences between at least one fuel reduction treatment and the untreated control. One soils-related restoration objective was mineral soil N reduction and the cut + burn treatment best achieved this result. Increased organic matter recalcitrance was another priority, but this was not obtained with any treatment. When paired with previously reported fuels and vegetation results from this site, it appeared that continued use of the cut + burn treatment may best achieve long-term management objectives for this site and other locations being managed for similar long-term restoration and fuels management objectives.

Published
2020
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3. Best Management Practices, Estimated Erosion, Residual Woody Debris, and Ground Cover Characteristics Following Biomass and Conventional Clearcut Harvests in Virginia’s Mountains

Author

Austin M Garren, M Chad Bolding, Scott M Barrett, W Michael Aust, and T Adam Coates

Subjects
Ecology, Ecological Modeling, Forestry
Abstract

Water quality best management practices (BMPs) developed for conventional forest harvests may be adequate for biomass harvests, yet quantitative data is lacking. This study compared estimated erosion, operational feature areas, BMP implementation rates, ground cover characteristics, and downed woody debris quantities following biomass and conventional harvests in the mountains of Virginia. Haul roads on biomass harvests had significantly higher estimated erosion rates (P = 0.064) and masses (P = 0.045) than conventional harvests, but conventional harvests had higher erosion contributions from skid trails (P = 0.089) and averaged more estimated erosion mass overall, despite being significantly smaller in size (P = 0.054). There was significantly less area in heavy slash (P = 0.076) and lower estimated mass of residual downed woody debris (P = 0.001) on biomass sites than conventional sites (10.98 and 27.95 tons/ac, respectively). Site-wide BMP implementation scores (P = 0.041), streamside management zones (SMZs) (P = 0.024), and skidding (P = 0.063) were significantly higher on biomass sites than conventional sites. BMP implementation scores were significant predictors of estimated erosion rates (P

Published
2022
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4. Thirty-five-year timber harvesting disturbance effects on composition and biomass of Nyssa-Taxodium forested wetlands, southwest Alabama, USA

Author

Cora Every, Michael Aust, David R. Carter, T. Adam Coates, and Erik B. Schilling

Abstract

Thirty-five years post-harvest, effects of harvest disturbances upon tree composition and aboveground biomass were evaluated in a Nyssa aquatica (water-tupelo)-Taxodium distichum (baldcypress) bottomland. The study site, along the Tensaw River, is within the Mobile-Tensaw River Delta in southwest Alabama. Nine replications of four disturbances were evaluated: no harvest reference (REF), clearcutting with helicopter removal (HELI), HELI combined with skidder extraction simulation (SKID), and HELI combined with broadcast spray (glyphosate) of sprouts and seedlings for two years (GLYPH). Thirty-five years post-treatment, species, diameter at breast height (DBH; 1.37 m) and total tree height were measured at monumented sample plots and converted to aboveground biomass. Clip plots were installed for herbaceous and woody stems shorter than DBH. Results indicate that HELI and SKID treatments remain on a trajectory to produce species composition and volume similar to REF. GLYPH lacked adequate coppice regeneration and regenerated from seedbanks and flood and wind disseminated seed, thus the treatment has succeeded from an herbaceous freshwater marsh to an open woodland/savanna community. The GLYPH treatment emphasizes the importance of coppice for rapid tree regeneration and the need for coppice success on sites having altered hydrology. This research further demonstrates the capacity for long-term recovery of forested wetland ecosystems following harvest. Furthermore, several site/stand factors favored stand regeneration, including adequate initial stocking of species capable of stump sprouting, intact hydrology with annual sediment deposits, shrink-swell soils, nearby seed sources and flood tolerances of original species acted collectively to favor rapid recovery from both HELI and SKID disturbances.

Published
2023
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6. Estimating heat tolerance of buds in southeastern US trees in fire-prone forests

Author

Adam B. McClure, T. Adam Coates, J. Kevin Hiers, John R. Seiler, Joseph J. O’Brien, and Chad M. Hoffman

Subjects
Forestry, Environmental Science (miscellaneous), Ecology, Evolution, Behavior and Systematics
Abstract

Background Traits of mature trees, such as bark thickness and texture, have been documented to promote resistance or resilience to heating in fire-prone forests. These traits often assist managers as they plan and promote prescribed fire management to accomplish specific land management objectives. Species are often grouped together as pyrophobes or pyrophytes as a result of these features. Nonetheless, little is known about species-specific traits of other structures, such as bud diameter, length, mass, moisture content, and surface area, that might be related to heat tolerance. Many prescribed fires are utilized in the eastern United States to control regeneration of less desired species, which could apply a more mechanistic understanding of energy doses that result in topkilling mid-story stems. In this study, we investigated potential relationships between terminal bud mortality from lateral branches of midstory stems and species-specific bud features of six eastern US deciduous trees. Characterized at maturity as either pyrophytes or pyrophobes, each was exposed to different heat dosages in a laboratory setting. Results Bud diameter, length, mass, moisture content, and surface area differed by species. Bud percent mortality at the first heat flux density (0.255–0.891MJm−2) was highest for two pyrophobes, chestnut oak (Quercus montana Willd.) and scarlet oak (Quercus coccinea Münchh). For the second heat flux density (1.275–1.485MJm−2), bud percent mortality was highest for these species and red maple (Acer rubrum L.). Principal component analysis suggested that bud surface area and length differentiated species. Red maple, chestnut oak, and scarlet oak produced clusters of buds, which may explain their more pronounced bud mortality. Yellow-poplar (Liriodendron tulipifera L.) was also present in that cluster, suggesting that its unique bud architecture of pre-emergent leaves may have elicited responses most similar to those of the clustered buds. Conclusions Contrary to expectations, lateral buds of species regarded as pyrophytes at maturity displayed some of the highest values of bud percent mortality when heated at two heat flux densities generated in a laboratory. Their responses may be related to clustering of their lateral buds. Testing of additional species using these methods in a laboratory setting, and perhaps additional methodologies in the field, is warranted.

Published
2022
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8. Soil Chemistry following Single-Entry, Dormant Season Prescribed Fires in the Ridge and Valley Province of Virginia, USA

Author

George E. Hahn, T. Adam Coates, and W. Michael Aust

Subjects
0106 biological sciences, Magnesium, Potassium, Phosphorus, Soil Science, chemistry.chemical_element, Soil chemistry, 04 agricultural and veterinary sciences, Calcium, 01 natural sciences, Nitrogen, Animal science, chemistry, 040103 agronomy & agriculture, Ridge (meteorology), 0401 agriculture, forestry, and fisheries, Environmental science, Agronomy and Crop Science, Carbon, 010606 plant biology & botany
Abstract

In this study, mineral soil (0–10 cm depth) chemistry [pH, calcium (Ca), carbon (C), magnesium (Mg), nitrogen (N), phosphorus (P), potassium (K)] was measured pre – and post-fire (6 and 14 months p...

Published
2021
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12. How do fire behavior and fuel consumption vary between dormant and early growing season prescribed burns in the southern Appalachian Mountains?

Author

Matthew C. Vaughan, T. Adam Coates, Matthew B. Dickinson, Donald L. Hagan, and William C. Bridges

Subjects
Annual growth cycle of grapevines, Agronomy, Habitat, Phenology, Prescribed burn, Litter, Fuel efficiency, Growing season, Environmental science, Forestry, Vegetation, Environmental Science (miscellaneous), Ecology, Evolution, Behavior and Systematics
Abstract

Background Despite the widespread use of prescribed fire throughout much of the southeastern USA, temporal considerations of fire behavior and its effects often remain unclear. Opportunities to burn within prescriptive meteorological windows vary seasonally and along biogeographical gradients, particularly in mountainous terrain where topography can alter fire behavior. Managers often seek to expand the number of burn days available to accomplish their management objectives, such as hazardous fuel reduction, control of less desired vegetation, and wildlife habitat establishment and maintenance. For this study, we compared prescribed burns conducted in the dormant and early growing seasons in the southern Appalachian Mountains to evaluate how burn outcomes may be affected by environmental factors related to season of burn. The early growing season was defined as the narrow phenological window between bud break and full leaf-out. Proportion of plot area burned, surface fuel consumption, and time-integrated thermocouple heating were quantified and evaluated to determine potential relationships with fuel moisture and topographic and meteorological variables. Results Our results suggested that both time-integrated thermocouple heating and its variability were greater in early growing season burns than in dormant season burns. These differences were noted even though fuel consumption did not vary by season of burn. The variability of litter consumption and woody fuelbed height reduction were greater in dormant season burns than in early growing season burns. Warmer air temperatures and lower fuel moisture, interacting with topography, likely contributed to these seasonal differences and resulted in more burn coverage in early growing season burns than in dormant season burns. Conclusions Dormant season and early growing season burns in southern Appalachian forests consumed similar amounts of fuel where fire spread. Notwithstanding, warmer conditions in early growing season burns are likely to result in fire spread to parts of the landscape left unburnt in dormant season burns. We conclude that early growing season burns may offer a viable option for furthering the pace and scale of prescribed fire to achieve management objectives.

Published
2021
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13. Forest Ecology and Management

Author

Melissa A. Thomas-Van Gundy, George E. Hahn, M. Chad Bolding, T. Adam Coates, W. Michael Aust, and Forest Resources and Environmental Conservation

Subjects
0106 biological sciences, Clearcutting, Forest floor, Hydrology, Slash (logging), Forest management, 05 Environmental Sciences, Forestry, Management, Monitoring, Policy and Law, 06 Biological Sciences, 010603 evolutionary biology, 01 natural sciences, Debris, Habitat, 07 Agricultural and Veterinary Sciences, Litter, Environmental science, Water quality, 010606 plant biology & botany, Nature and Landscape Conservation
Abstract

Active forest management operations, such as regeneration harvests, can reduce hazardous fuel loads and alter fuel structure, potentially minimizing extreme wildfire conditions while maintaining ecosystem services, such as wildlife habitat and water quality. Regeneration harvests of differing intensities (clearcut, high-retention shelterwood, and low-retention shelterwood) were first applied between 1995 and 1996 to three sites on the George Washington-Jefferson National Forest in the Ridge and Valley Province of Virginia, USA. Over two decades after the clearcut was conducted and 11–12 years after the overwood was removed in the shelterwood stands, woody debris, litter, and duff masses and depths were quantified. One-hour fuel loads were greater in clearcut units than in high-retention shelterwood, low-retention shelterwood, or control units. Ten-hour fuel loads were greater in clearcut and low-retention shelterwood units than in high-retention shelterwood and control units. No significant differences in 100-hour fuels were observed between treatments. Control units contained more rotten and total 1000-hour fuels than all other treatments. The total woody debris load was less in the clearcut and high-retention shelterwood than in the low-retention shelterwood and control. High-retention shelterwood woody fuel depth was greater than clearcut woody fuel depth. Litter and duff loads were less in treated units than in the control units. Total fuel load (woody fuel load + litter load + duff load) was greater in the control than the silvicultural treatments. Litter depth did not differ between treatments, while duff depth was greater in the control than in the treated units. Using the computer modeling software, BehavePlus 6.0.0, these alterations to fuel loads and depths led to increased values in the control units for six fire behavior parameters. Predicted surface flame length in the low-retention shelterwood was the only modeled value that was not less than control values. Overall, these results indicated that harvest intensity and timing may have long-term effects on down and dead woody fuels, forest floor depth, and potential fire behavior. Clearcutting reduced fire behavior most, followed by the high-retention shelterwood system. The potential differences in slash and debris generated by varying shelterwood systems may impact long-term fuel and fire dynamics. Published version

Published
2021

15. Forest Ecology and Management

Author

Donald L. Hagan, T. Adam Coates, Andrew Johnson, Alex T. Chow, Carl C. Trettin, W. Michael Aust, and Forest Resources and Environmental Conservation

Subjects
0106 biological sciences, Watershed, Nitrogen, Forest management, Duff, Management, Monitoring, Policy and Law, 010603 evolutionary biology, 01 natural sciences, Prescribed fire, Basal area, Litter, Ecosystem, Salvage logging, Silviculture, Woody debris, Nature and Landscape Conservation, Forestry, Phosphorus, Understory, Vegetation, Carbon, Hurricane Hugo, Environmental science, Calcium, Soil conservation, Thinning, 010606 plant biology & botany
Abstract

Globally, prescribed fire, harvesting, and understory mastication, alone and in combination, are common forest management practices. Timber commodities, wildlife habitat, wildfire fuel reduction, soil conservation, and water quality are frequently targeted and assessed as these practices are utilized. In the 1960s, a study of paired, first-order watersheds was established in coastal South Carolina, USA, to evaluate the long-term impacts of forest management (i.e. prescribed fire, thinning, mastication of understory vegetation) on water quantity and quality. Following Hurricane Hugo in 1989, this included salvage logging on one watershed, but not the other. In 2015, these watersheds were comprehensively evaluated to determine differences in forest species composition, fuels, and soil chemistry. Softwood basal area was greater in the managed watershed than in the unmanaged watershed and hardwood basal area was greater in the unmanaged watershed than in the managed watershed. Total fuel mass did not differ between the two watersheds, but 1-hr and 1000-hr rotten fuel mass were greater on the unmanaged watershed. Ten-hr fuel mass was greater on the managed watershed. Calcium, nitrogen, magnesium, phosphorus, potassium, and pH differed between the litter (Oi horizon) and duff (Oe + Oa horizons) of both watersheds, but carbon only differed in the duff. Mineral soil (Ultisols, 0-10 and 10-20 cm depths) calcium and phosphorus differed between the watersheds, but pH and the other chemicals did not. Collectively, these results indicated that: (1) forest management and natural disturbance on these watersheds altered long-term forest structure; (2) different species compositions and the inclusion or exclusion of salvage logging after Hurricane Hugo produced different fuel compositions that may potentially impact potential wildfire hazard and fire behavior; (3) organisms as a primary soil-forming factor were impacted by long-term management, therefore, some soil chemical properties were affected. Collectively, these analyses highlighted the broad, long-term impacts to ecosystem properties and processes that might directly and indirectly result from active forest management and natural disturbance and the scale of site-specific assessment that might be considered when landowner objectives are targeted in forest management plans and practices. Public domain – authored by a U.S. government employee

Published
2020

16. Fire

Author

W. Michael Aust, Christopher J. Dukes, Dean M. Simon, Donald L. Hagan, T. Adam Coates, Thomas A. Waldrop, and Forest Resources and Environmental Conservation

Subjects
0106 biological sciences, 010504 meteorology & atmospheric sciences, Nitrogen, QC1-999, chemistry.chemical_element, Environmental Science (miscellaneous), magnesium, 010603 evolutionary biology, 01 natural sciences, nitrogen, Earth and Planetary Sciences (miscellaneous), Organic matter, phosphorus, Safety, Risk, Reliability and Quality, Restoration ecology, 0105 earth and related environmental sciences, chemistry.chemical_classification, calcium, Physics, Phosphorus, carbon, potassium, wildfire hazard, Soil chemistry, Forestry, silviculture, Building and Construction, Vegetation, Understory, ecosystem restoration, fuels reduction, chemistry, Agronomy, Soil water, Soil horizon, Environmental science, Safety Research
Abstract

From 2001&ndash, 2018, a series of fuel reduction and ecosystem restoration treatments were implemented in the southern Appalachian Mountains near Asheville, North Carolina, USA. Treatments consisted of prescribed fire (four burns), mechanical cutting of understory shrubs and mid-story trees (two cuttings), and a combination of both cutting and prescribed fire (two cuts + four burns). Soils were sampled in 2018 to determine potential treatment impacts for O horizon and mineral soil (0&ndash, 10 cm depth) carbon (C) and nitrogen (N) and mineral soil calcium (Ca), magnesium (Mg), phosphorus (P), potassium (K), and pH. Results suggested that mean changes in O horizon C and N and mineral soil C, N, C:N, Ca, and P from 2001&ndash, 2018 differed between the treatments, but only mineral soil C, N, C:N and Ca displayed differences between at least one fuel reduction treatment and the untreated control. One soils-related restoration objective was mineral soil N reduction and the cut + burn treatment best achieved this result. Increased organic matter recalcitrance was another priority, but this was not obtained with any treatment. When paired with previously reported fuels and vegetation results from this site, it appeared that continued use of the cut + burn treatment may best achieve long-term management objectives for this site and other locations being managed for similar long-term restoration and fuels management objectives.

Published
2020

17. Does Sampler Size Affect Southeastern Piedmont Forest Soil Bulk Density Estimation?

Author

Hoke S. Hill, Thomas A. Waldrop, Victor B. Shelburne, and T. Adam Coates

Subjects
0106 biological sciences, Soil Science, Sampling (statistics), Soil science, 04 agricultural and veterinary sciences, 010603 evolutionary biology, 01 natural sciences, Bulk density, Forest restoration, Soil compaction (agriculture), 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Agronomy and Crop Science, Silviculture
Abstract

Destructive core sampling is the most recognized technique for soil bulk density estimation to monitor soil compaction. This study was conducted to determine if soil bulk density sampler size would...

Published
2018
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18. Thermocouple Probe Orientation Affects Prescribed Fire Behavior Estimation

Author

Mary-Frances Rogers, Donald L. Hagan, G. Geoff Wang, Thomas A. Waldrop, T. Adam Coates, Alex T. Chow, James H. Dozier, and William C. Bridges

Subjects
Environmental Engineering, 010504 meteorology & atmospheric sciences, Growing season, Forests, Management, Monitoring, Policy and Law, Atmospheric sciences, 01 natural sciences, Fires, Soil, Thermocouple, Orientation (geometry), Waste Management and Disposal, Ecosystem, 0105 earth and related environmental sciences, Water Science and Technology, 040101 forestry, Estimation, Dormant season, Prescribed burn, 04 agricultural and veterinary sciences, Pinus, Pollution, Plant Leaves, 0401 agriculture, forestry, and fisheries, Environmental science, Seasons, Intensity (heat transfer), Fire behavior
Abstract

Understanding the relationship between fire intensity and fuel mass is essential information for scientists and forest managers seeking to manage forests using prescribed fires. Peak burning temperature, duration of heating, and area under the temperature profile are fire behavior metrics obtained from thermocouple-datalogger assemblies used to characterize prescribed burns. Despite their recurrent usage in prescribed burn studies, there is no simple protocol established to guide the orientation of thermocouple installation. Our results from dormant and growing season burns in coastal longleaf pine ( Mill.) forests in South Carolina suggest that thermocouples located horizontally at the litter-soil interface record significantly higher estimates of peak burning temperature, duration of heating, and area under the temperature profile than thermocouples extending 28 cm vertically above the litter-soil interface ( < 0.01). Surprisingly, vertical and horizontal estimates of these measures did not show strong correlation with one another ( ≤ 0.14). The horizontal duration of heating values were greater in growing season burns than in dormant season burns ( < 0.01), but the vertical values did not indicate this difference ( = 0.52). Field measures of fuel mass and depth before and after fire showed promise as significant predictive variables ( ≤ 0.05) for the fire behavior metrics. However, all correlation coefficients were less than or equal to = 0.41. Given these findings, we encourage scientists, researchers, and managers to carefully consider thermocouple orientation when investigating fire behavior metrics, as orientation may affect estimates of fire intensity and the distinction of fire treatment effects, particularly in forests with litter-dominated surface fuels.

Published
2018
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19. Frequent Prescribed Burning as a Long-term Practice in Longleaf Pine Forests Does Not Affect Detrital Chemical Composition

Author

T. Adam Coates, G. Geoff Wang, James H. Dozier, Alex T. Chow, William C. Bridges, and Donald L. Hagan

Subjects
Environmental Engineering, 010504 meteorology & atmospheric sciences, Detritus (geology), Forests, 010501 environmental sciences, Management, Monitoring, Policy and Law, 01 natural sciences, Fires, Soil, Ecosystem, Waste Management and Disposal, Chemical composition, 0105 earth and related environmental sciences, Water Science and Technology, Ecology, Prescribed burn, Soil chemistry, Forestry, Pinus, Pollution, Plant Leaves, Productivity (ecology), Environmental science, Soil horizon, Woody plant
Abstract

The O horizon, or detrital layer, of forest soils is linked to long-term forest productivity and health. Fuel reduction techniques, such as prescribed fire, can alter the thickness and composition of this essential ecosystem component. Developing an understanding of the changes in the chemical composition of forest detritus due to prescribed fire is essential for forest managers and stakeholders seeking sustainable, resilient, and productive ecosystems. In this study, we evaluated fuel quantity, fuel structure, and detrital chemical composition in longleaf pine ( Miller) forests that have been frequently burned for the last 40 yr at the Tom Yawkey Wildlife Center in Georgetown, SC. Our results suggest that frequent prescribed fire reduces forest fuel quantity ( < 0.01) and vertical structure ( = 0.01). Using pyrolysis-gas chromatography/mass spectrometry as a molecular technique to analyze detrital chemical composition, including aromatic compounds and polycyclic aromatic hydrocarbons, we found that the chemical composition of forest detritus was nearly uniform for both unburned and burned detritus. Our burning activities varied in the short term, consisting of annual dormant, annual growing, and biennial dormant season burns. Seasonal distinctions were present for fuel quantity and vertical fuel structure, but these differences were not noted for the benzene/phenol ratio. These results are significant as more managers consider burning existing longleaf stands while determining effective management practices for longleaf stands yet to be established. Managers of such stands can be confident that frequent, low-intensity, low-severity prescribed burns in longleaf pine forests do little to affect the long-term chemical composition of forest detritus.

Published
2017
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20. Effect of prescribed fires on the export of dissolved organic matter, precursors of disinfection by-products, and water treatability

Author

Christopher I. Olivares, Wenbo Zhang, Tanju Karanfil, Alex T. Chow, Habibullah Uzun, T. Adam Coates, Cagri Utku Erdem, Uzun, Habibullah, Zhang, Wenbo, Olivares, Christopher I., Erdem, Cagri Utku, Coates, T. Adam, Karanfil, Tanju, and Chow, Alex T.

Subjects
TEMPORAL PATTERNS, TERRESTRIAL, DYNAMICS, Environmental Engineering, Nitrogen, 0208 environmental biotechnology, chemistry.chemical_element, 02 engineering and technology, DBP precursors, 010501 environmental sciences, 01 natural sciences, Prescribed fire, Water Purification, chemistry.chemical_compound, Dissolved organic carbon, ECOSYSTEMS, Ammonium, Leachate, Leaching (agriculture), Waste Management and Disposal, 0105 earth and related environmental sciences, Water Science and Technology, Civil and Structural Engineering, SOIL SOLUTION, Coagulation, NDMA FORMATION POTENTIALS, LAND-USE, Alum, WILDFIRE, Ecological Modeling, Phosphorus, Water, Pollution, 020801 environmental engineering, Disinfection, Trihalomethane, FLUORESCENCE SPECTROSCOPY, chemistry, Environmental chemistry, BLACK CARBON, Litter, DOM leaching and composition, Water Pollutants, Chemical, Trihalomethanes
Abstract

In this study, we report for the first time the effect of prescribed fires on the export of dissolved organic matter (DOM) and precursors of disinfectant by-products (DBPs) from periodically (every 2-3 years) and seasonally (i.e., dormant and growing) burned forest fuel materials (i.e., live vegetation, woody debris, and detritus [litter and duff]) and treatability of its rainwater leachate. Periodically applied (every 2-3 years for 40 years) prescribed fires decreased total fuel load (62 10%), primarily detrital mass (75 +/- 2%). How-ever, functional groups (i.e., phenolic compounds, proteins, carbohydrates, aromatic [1-ring], polycyclic aromatic hydrocarbons [PAHs], and lipids) attached to DOM of ground solid materials did not change significantly. Outside rainwater leaching (from forest fuel materials) experiments showed that the leaching capacity of dissolved organic carbon (DOC) from burned litter samples decreased by 40 +/- 20% regardless of burning season when compared to unburned litter samples. The leaching of total dissolved nitrogen (TDN), dissolved organic nitrogen (DON), ammonium (NH4+), and reactive phosphorus (PO43-) from burned materials decreased between 40 and 70% when compared to unburned materials. Also, DOM composition was affected by prescribed fire, which partially consumed humic-like substances based on fluorescence analyses. Thus, periodically applied prescribed fires also resulted in a reduction of trihalomethane (THM) (42 +/- 23%) and haloacetic acid (HAA) (42 +/- 20%) formation potentials (FPs), while DOC normalized reactivity of THM and HAA FPs did not change significantly. Additionally, the leaching of Nnitrosodimethylamine (NDMA) precursors, bromide ion (Br-), and selected elements (K, Ca, Mg, Mn, Fe, S, Na, B, and Al) were not significantly affected by prescribed fires. Finally, coagulant (i.e., alum and ferric) dose requirements and coagulation efficiencies were similar (i.e., removal of DOC, precursors of THMs and HAAs were 52-56%, 69-70%, 78-79%, respectively) in unburned and pre-burned leachate samples. (c) 2020 Elsevier Ltd. All rights reserved.

Published
2019

21. International Journal of Wildland Fire

Author

Hamed Majidzadeh, Huan Chen, T. Adam Coates, Kuo-Pei Tsai, Christopher I. Olivares, Carl Trettin, Habibullah Uzun, Tanju Karanfil, Alex T. Chow, and Forest Resources and Environmental Conservation

Subjects
Water quality, Ecology, carbon, fuels, mastication, forest management, Forestry, harvesting, prescribed fire
Abstract

Watershed management practices such as prescribed fire, harvesting and understory mastication can alter the chemical composition and thickness of forest detritus, thus affecting the quantity and quality of riverine dissolved organic matter (DOM). Long-term effects of watershed management on DOM composition were examined through parallel field and extraction-based laboratory studies. The laboratory study was conducted using detritus samples collected from a pair of managed and unmanaged watersheds in South Carolina, USA. Results showed that dissolved organic carbon (DOC), total dissolved nitrogen (TDN) and ammonium (NH4+-N) concentrations were higher in water extracts from the unmanaged watershed than from the managed watershed (P < 0.01). Pyrolysis gas chromatography-mass spectrometry analysis showed that water extracts from the unmanaged watershed contained more aromatic compounds than extracts from the managed watershed. For the field study, monthly water samples were collected for 1 year (2015) from the paired watersheds. DOC and TDN concentrations, as well as DOM aromaticity, were significantly higher in the unmanaged watershed than in the managed watershed for most of the year (P < 0.05) and were linked to detrital thickness, precipitation and flow patterns. The formation potential of two regulated disinfection by-products was lower in the unmanaged watershed for most of 2015 (P < 0.05). From this study, it appears that long-term watershed management practices may alter detrital mass and chemistry in ways that improve water quality. Joint Fire Science Program [14-1-06-19]; USEPAUnited States Environmental Protection Agency [R835864]; USDA Forest Service National Fire Plan (2014-18) We are grateful for financial support from the Joint Fire Science Program (Project 14-1-06-19), USEPA (R835864) and the USDA Forest Service National Fire Plan (2014-18). We also thank Mary-Frances Wolf, Ryan Marsh, Rob O'Neal, David Miller, Jennie Untener and Brian Williams for their assistance with fieldwork and sample collection. Public domain – authored by a U.S. government employee

Published
2019

22. Photo guide for estimating fuel loading in the Southern Appalachian Mountains

Author

Helen H. Mohr, T. Adam Coates, Todd F. Hutchinson, and Thomas A. Waldrop

Subjects
Hydrology, Field (geography), Geology
Abstract

This field guide provides 74 photographs that depict observed fuel loads within the Southern Appalachian Mountains. The guide contains instructions on how to select a reference photograph and utilize the fuel loading information to aid in prescribed fire planning.

Published
2019
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23. Prescribed Fire Effects on Water Quality and Freshwater Ecosystems in Moist-Temperate Eastern North America

Author

George E. Hahn, Roger Earl Latham, T. Adam Coates, and Hamed Majidzadeh

Subjects
0106 biological sciences, Ecology, Forest management, 04 agricultural and veterinary sciences, 010603 evolutionary biology, 01 natural sciences, Freshwater ecosystem, Invasive species, Ecosystem services, Habitat, Environmental protection, 040103 agronomy & agriculture, Temperate climate, 0401 agriculture, forestry, and fisheries, Environmental science, Water quality, Restoration ecology, Nature and Landscape Conservation
Abstract

Forests of the eastern United States provide numerous ecosystem services, including water filtration. Forest management activities of eastern forests often include prescribed fire to accomplish a variety of management objectives such as invasive species control, wildlife habitat improvement, ecosystem restoration, and hazardous fuel reduction. Despite widespread use of prescribed fire in this region and the need to maintain adequate water quality from forests impacted by this practice, there is a paucity of knowledge on prescribed fire's impacts on water quality. This article summarizes and consolidates known impacts of prescribed fire on chemical, physical, and biological properties related to water quality and freshwater ecosystems in moist-temperate eastern North America, including impacts on drinking water treatability. Based upon this synthesis, it appears that most prescribed fires in eastern forests are low intensity and low severity and cause minimal changes to forest soil properties, leading to minimal adverse impacts that might exacerbate soil erosion and adversely affect surface waters. In some cases, prescribed fire has been shown to enhance water quality in the region. Technological advancements in monitoring fire behavior have the potential to advance our knowledge regarding the effects of prescribed fire on water quality in the eastern forest region, particularly for fires of mixed or moderate severity and fires occurring in complex terrain.

Published
2019
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24. Corrigendum to: Long-term watershed management is an effective strategy to reduce organic matter export and disinfection by-product precursors in source water

Author

Huan Chen, Alex T. Chow, Carl C. Trettin, Habibullah Uzun, Christopher I. Olivares, Hamed Majidzadeh, Tanju Karanfil, Kuo-Pei Tsai, and T. Adam Coates

Subjects
040101 forestry, chemistry.chemical_classification, Watershed, Ecology, Forest management, Forestry, Disinfection by-product, 04 agricultural and veterinary sciences, Vegetation, Watershed management, chemistry, Environmental chemistry, Dissolved organic carbon, 0401 agriculture, forestry, and fisheries, Environmental science, Organic matter, Water quality
Abstract

Watershed management practices such as prescribed fire, harvesting and understory mastication can alter the chemical composition and thickness of forest detritus, thus affecting the quantity and quality of riverine dissolved organic matter (DOM). Long-term effects of watershed management on DOM composition were examined through parallel field and extraction-based laboratory studies. The laboratory study was conducted using detritus samples collected from a pair of managed and unmanaged watersheds in South Carolina, USA. Results showed that dissolved organic carbon (DOC), total dissolved nitrogen (TDN) and ammonium (NH4+-N) concentrations were higher in water extracts from the unmanaged watershed than from the managed watershed (P

Published
2019
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25. Soil Nitrogen Transformations Under Alternative Management Strategies in Appalachian Forests

Author

Daniel A. Yaussy, T. Adam Coates, Ralph E. J. Boerner, and Thomas A. Waldrop

Subjects
Detritus, Ecology, ved/biology, ved/biology.organism_classification_rank.species, Soil Science, Growing season, Forestry, Understory, Shrub, Fire protection, Environmental science, Ecosystem, Cycling, Restoration ecology
Abstract

Once subject to frequent fire and strongly N limited, the forests of the Appalachian Mountain region of eastern North America have experienced almost a century of fire suppression, and changes in tree species composition, understory density and composition, and accumulations of detritus have paralleled the changes in fire frequency. In an effort to restore these ecosystems and reduce wildfire hazard, alternative management strategies (prescribed fire, mechanical fuel reduction, and a combination of both) were implemented at study sites in Ohio and North Carolina as part of the Fire and Fire Surrogate Network Study. As changes in N cycling resulting from these treatments could have potential negative impacts on forest health that might limit their usefulness as management alternatives, we monitored treatment effects on extractable total inorganic N (TIN), net N mineralization, net nitrification, and proportional nitrification during the growing season before treatment, the first growing season after treatment, and the third or fourth growing season after treatment. Mechanical treatment resulted in increases in extractable TIN, N mineralization, and nitrification during the first post-treatment year in Ohio and TIN was greater in the mechanical treatment and the mechanical + fire treatment during the third post-treatment year in North Carolina. Net N mineralization was reduced by fire alone in Ohio, but not in North Carolina. Nitrogen transformation rates were 2- to 10-fold higher in Ohio than North Carolina, a difference that may partly result from of the ericaceous shrub understory present in North Carolina but not in Ohio. Impacts of these treatments on N transformations were modest and for the most part transient, and would therefore not eliminate these treatments as viable management strategies for wildfire hazard reduction or ecosystem restoration.

Published
2008
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