Water use in a young <i>Pinus taeda</i> bioenergy plantation: Effect of intensive management on stand evapotranspiration

Staudhammer, Christina L.; Younger, Seth E.; Aubrey, Doug P.; Loescher, Henry W.; Jackson, C. Rhett; Starr, Gregory

doi:10.1002/ecs2.4100

Cited by 5 publications

(1 citation statement)

References 90 publications

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“…We also did not measure the potential of respired CO 2 being transported through the xylem, which was outside the scope of this study. It is well known that as LAI increases with stand development so does transpiration [50], which could have led to R a bypassing soil respiration [51,52].…”

Section: Discussionmentioning

confidence: 99%

The Effect of Rapid Development on Soil CO2 Efflux in a Cellulosic Biofuel Stand

Wright-Osment

Starr

Aubrey

et al. 2023

Forests

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As awareness of climate change increases, the need for carbon neutral fuel sources is growing. Lignocellulosic biofuel derived from pine trees has been suggested as one potential energy source; however, it requires more research before its efficacy for climate change mitigation can be determined. Due to the large share of forest carbon held in soils and the extensive area of pine plantations in the southeast U.S., a better understanding of plantation soil carbon dynamics is critical for biofuel carbon accounting. This study evaluated the effects of canopy development and productivity on soil CO2 efflux, a proxy for soil respiration (Rs), in an intensively managed loblolly pine (Pinus taeda) stand over a period from May 2015 to December 2019. We found that leaf area index (LAI) and gross ecosystem production (GEP), as well as meteorological variables, had significant effects on Rs, but that both overall Rs and soil carbon pools did not increase over the course of the study. We thus hypothesize that GEP and LAI had intra-annual effects on Rs, and that the lack of change in Rs is the result of an increase in autotrophic respiration (Ra) that offset a decrease in decomposition of the previous stand’s organic matter.

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Section: Discussionmentioning

confidence: 99%

The Effect of Rapid Development on Soil CO2 Efflux in a Cellulosic Biofuel Stand

Wright-Osment

Starr

Aubrey

et al. 2023

Forests

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Fire exclusion alters forest evapotranspiration: A comprehensive water budget analysis in longleaf pine woodlands

Brantley,

Stuber,

Holder

et al. 2024

Ecological Monographs

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Forests are critical to water resources, but high evapotranspiration (ET) can reduce water yield. Thinning and prescribed fire reduce forest density and often reduce ET, promoting higher water yield. However, results from such treatments have been inconsistent, possibly because of unknown interactions among individual ET components. We compare water budget components of longleaf pine (Pinus palustris Mill.) woodlands with frequent prescribed fire to the water budget components of fire‐excluded stands. We hypothesized that fire exclusion would result in higher ET due to increased midstory transpiration (Et) and interception (Ei), and higher evaporation from litter (Ilitter). Reference plots were burned every two years while treatment plots had fire excluded for 15–20 years. Fire treatments were repeated in two sites representing a soil moisture gradient, noted as mesic and xeric. We measured woody Et using sap flux, and we modeled groundcover Et using physiological models. We measured Ei of canopy and groundcover layers, modeled Es litter biomass, and constructed a total component‐based water budget for each site and treatment. Compared with reference plots, midstory Et was 300%–800% higher in fire exclusion plots. Groundcover Et was ~80% less than reference treatments, countering the effects of midstory growth on total ET. Stand Ei followed similar trends, with groundcover Ei in reference plots countering the effects of midstory and litter Ei in fire exclusion plots. As expected, total ET in the xeric site was 18% higher in fire exclusion plots. However, ET in the mesic site was 16% lower in the fire exclusion plots due to high groundcover Et and Ei in reference plots. Thus, our results show that fire exclusion changes total forest ET, but the size and direction of the effect vary depending on the balance between midstory and groundcover transpiration and interception. These results highlight the importance of groundcover in ecosystem function in low‐density forests and may help explain inconsistent results from studies of water yields following thinning and fire. While prescribed fire is a valuable tool in forest management, we suggest that the effects of fire on ET are complex and require careful accounting of all water fluxes within a forest ecosystem.

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Rapid denitrification of nitrate-contaminated groundwater in a low-gradient blackwater stream valley

Raulerson,

Jeffers,

Griffiths

et al. 2023

Biogeochemistry

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Water use in a young Pinus taeda bioenergy plantation: Effect of intensive management on stand evapotranspiration

Cited by 5 publications

References 90 publications

The Effect of Rapid Development on Soil CO2 Efflux in a Cellulosic Biofuel Stand

The Effect of Rapid Development on Soil CO2 Efflux in a Cellulosic Biofuel Stand

Fire exclusion alters forest evapotranspiration: A comprehensive water budget analysis in longleaf pine woodlands

Rapid denitrification of nitrate-contaminated groundwater in a low-gradient blackwater stream valley

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