Throughfall Reduction × Fertilization: Deep Soil Water Usage in a Clay Rich Ultisol Under Loblolly Pine in the Southeast USA

Throughfall Reduction × Fertilization: Deep Soil Water Usage in a Clay Rich Ultisol Under Loblolly Pine in the Southeast USA

Forests in the Southeast USA are predicted to experience a moderate decrease in precipitation inputs over this century that may result in soil water deficiency during the growing season. The potential impact of a drier climate on the productivity of managed loblolly pine (Pinus taeda L.) plantations...

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Bibliographic Details
Main Authors: Ji Qi, Daniel Markewitz, Mary Anne McGuire, Lisa Samuelson, Eric Ward
Format: Article
Language:English
Published: Frontiers Media S.A. 2020-01-01
Series:Frontiers in Forests and Global Change
Subjects:
deep soil
soil moisture
drought
fertilization
loblolly pine
Online Access:https://www.frontiersin.org/article/10.3389/ffgc.2019.00093/full
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spelling doaj-3da49892d7e64ac695526371a0678e4c2020-11-25T00:46:45ZengFrontiers Media S.A.Frontiers in Forests and Global Change2624-893X2020-01-01210.3389/ffgc.2019.00093488389Throughfall Reduction × Fertilization: Deep Soil Water Usage in a Clay Rich Ultisol Under Loblolly Pine in the Southeast USAJi Qi0Ji Qi1Daniel Markewitz2Mary Anne McGuire3Lisa Samuelson4Eric Ward5Eric Ward6Warnell School of Forestry and Natural Resources, University of Georgia, Athens, GA, United StatesThe Jones Center at Ichauway, Newton, GA, United StatesWarnell School of Forestry and Natural Resources, University of Georgia, Athens, GA, United StatesWarnell School of Forestry and Natural Resources, University of Georgia, Athens, GA, United StatesSchool of Forestry and Wildlife Sciences, Auburn University, Auburn, AL, United StatesU. S. Geological Survey, Wetland and Aquatic Research Center, Lafayette, LA, United StatesDepartment of Forestry and Environmental Resources, North Carolina State University, Raleigh, NC, United StatesForests in the Southeast USA are predicted to experience a moderate decrease in precipitation inputs over this century that may result in soil water deficiency during the growing season. The potential impact of a drier climate on the productivity of managed loblolly pine (Pinus taeda L.) plantations in the Southeast USA is uncertain. Access to water reserves in deep soil during drought periods may help buffer these forests from the effects of water deficits. To better understand the potential impact of drought on deep soil water, we studied the combined effects of throughfall reduction and fertilization on soil water usage in a clay rich Piedmont Ultisol to a depth of 3 m. In a 6-year-old loblolly pine plantation, we applied a throughfall reduction treatment (ambient vs. ~30% throughfall reduction) and a fertilization treatment (no fertilization vs. fertilization). Over 28 months, throughfall reduction lowered soil moisture for all depths and differences were significant in the surface soils (0–0.3 m) (1.2–3.6%) and deep soils (below 2 m) (2.6–3.6%). Fertilization also lowered soil moisture for all depths and differences were significant at 0.3–0.6 m (2.9%) and 1.94–3.06 m (4.5%). Fertilization when combined with the throughfall reduction treatment significantly decreased soil water at 0.1–0.9 m depth. Soils of all depths were rarely depleted of plant available water with the exception of 0–0.1 m, mainly during the growing season. Under throughfall reduction treatment, soil below 0.9 m consistently accounted for more than half of the change in plant available water during months when transpiration exceeded precipitation. When considering the whole soil profile in this clay rich Ultisol, soil water storage buffered transpirational demand in the face of decreasing throughfall input.https://www.frontiersin.org/article/10.3389/ffgc.2019.00093/fulldeep soilsoil moisturedroughtfertilizationloblolly pine
collection DOAJ
language English
format Article
sources DOAJ
author Ji Qi
Ji Qi
Daniel Markewitz
Mary Anne McGuire
Lisa Samuelson
Eric Ward
Eric Ward
spellingShingle Ji Qi
Ji Qi
Daniel Markewitz
Mary Anne McGuire
Lisa Samuelson
Eric Ward
Eric Ward
Throughfall Reduction × Fertilization: Deep Soil Water Usage in a Clay Rich Ultisol Under Loblolly Pine in the Southeast USA
Frontiers in Forests and Global Change
deep soil
soil moisture
drought
fertilization
loblolly pine
author_facet Ji Qi
Ji Qi
Daniel Markewitz
Mary Anne McGuire
Lisa Samuelson
Eric Ward
Eric Ward
author_sort Ji Qi
title Throughfall Reduction × Fertilization: Deep Soil Water Usage in a Clay Rich Ultisol Under Loblolly Pine in the Southeast USA
title_short Throughfall Reduction × Fertilization: Deep Soil Water Usage in a Clay Rich Ultisol Under Loblolly Pine in the Southeast USA
title_full Throughfall Reduction × Fertilization: Deep Soil Water Usage in a Clay Rich Ultisol Under Loblolly Pine in the Southeast USA
title_fullStr Throughfall Reduction × Fertilization: Deep Soil Water Usage in a Clay Rich Ultisol Under Loblolly Pine in the Southeast USA
title_full_unstemmed Throughfall Reduction × Fertilization: Deep Soil Water Usage in a Clay Rich Ultisol Under Loblolly Pine in the Southeast USA
title_sort throughfall reduction × fertilization: deep soil water usage in a clay rich ultisol under loblolly pine in the southeast usa
publisher Frontiers Media S.A.
series Frontiers in Forests and Global Change
issn 2624-893X
publishDate 2020-01-01
description Forests in the Southeast USA are predicted to experience a moderate decrease in precipitation inputs over this century that may result in soil water deficiency during the growing season. The potential impact of a drier climate on the productivity of managed loblolly pine (Pinus taeda L.) plantations in the Southeast USA is uncertain. Access to water reserves in deep soil during drought periods may help buffer these forests from the effects of water deficits. To better understand the potential impact of drought on deep soil water, we studied the combined effects of throughfall reduction and fertilization on soil water usage in a clay rich Piedmont Ultisol to a depth of 3 m. In a 6-year-old loblolly pine plantation, we applied a throughfall reduction treatment (ambient vs. ~30% throughfall reduction) and a fertilization treatment (no fertilization vs. fertilization). Over 28 months, throughfall reduction lowered soil moisture for all depths and differences were significant in the surface soils (0–0.3 m) (1.2–3.6%) and deep soils (below 2 m) (2.6–3.6%). Fertilization also lowered soil moisture for all depths and differences were significant at 0.3–0.6 m (2.9%) and 1.94–3.06 m (4.5%). Fertilization when combined with the throughfall reduction treatment significantly decreased soil water at 0.1–0.9 m depth. Soils of all depths were rarely depleted of plant available water with the exception of 0–0.1 m, mainly during the growing season. Under throughfall reduction treatment, soil below 0.9 m consistently accounted for more than half of the change in plant available water during months when transpiration exceeded precipitation. When considering the whole soil profile in this clay rich Ultisol, soil water storage buffered transpirational demand in the face of decreasing throughfall input.
topic deep soil
soil moisture
drought
fertilization
loblolly pine
url https://www.frontiersin.org/article/10.3389/ffgc.2019.00093/full
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