Assessing the potential impact of retaining native off‐site tree species in woodland restoration

Reestablishing appropriate tree species is an important step in converting off‐site monocultures into woodlands. Species conversion is often necessary, as off‐site exotic species rarely function like woodland species. However, when off‐site tree species are native, and functionally redundant to wood...

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Published in	Restoration ecology Vol. 32; no. 5
Main Authors	Willis, John L., Bragg, Don C., Cannon, Jeffery B., Gandhi, Kamal J. K., Kidd, Kathryn R., Polinko, Adam D., Puhlick, Joshua J., Saenz, Daniel, Sayer, Mary Anne, Schalk, Christopher M., Self, Andrew B., Siegert, Courtney M., Varner, J. Morgan
Format	Journal Article
Language	English
Published	Malden, USA Wiley Periodicals, Inc 01.07.2024 Blackwell Publishing Ltd
Subjects	Carbon sequestration Drought Evergreen trees Fire resistance Flammability forest structure Indigenous species Insects Introduced species Monoculture Pest resistance Pine Pine trees Pinus echinata Pinus elliottii Pinus spp Plant species Red‐cockaded Woodpecker Regeneration (biological) resistance Restoration southern pine Understory Woodlands
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Abstract	Reestablishing appropriate tree species is an important step in converting off‐site monocultures into woodlands. Species conversion is often necessary, as off‐site exotic species rarely function like woodland species. However, when off‐site tree species are native, and functionally redundant to woodland species, conversion may be unnecessary. To explore this possibility in the southeastern United States, we reviewed the literature on trait differences among the primary southern pines and qualitatively assessed the effect of their identity at the species and stand‐levels. In this region, woodland restoration focuses on removing loblolly (Pinus taeda) and slash pine (P. elliottii) to reestablish longleaf (P. palustris) or shortleaf pine (P. echinata). Our review found minimal variation among species in understory flammability, fire resistance at maturity, and Red‐cockaded Woodpecker (Leuconotopicus borealis) habitat at the stand‐level. Longleaf and shortleaf pine were generally more resistant to abiotic and pest disturbance at the tree‐level; however, stand‐level differences in wind, drought, and boring insect resistance among southern pines growing in open forests were considered minimal. Retaining loblolly and slash pine will improve stand‐level productivity in the short term, but creates regeneration problems due to low juvenile fire resistance and resilience. Ice resistance and long‐term carbon sequestration will also likely be reduced by retaining loblolly and slash pine. Collectively, these results suggest that southern pine species are generally interchangeable at the stand‐level in woodlands; although woodlands featuring loblolly and slash pine may be less stable in the face of disturbance than those dominated by shortleaf and longleaf pine.
AbstractList	Reestablishing appropriate tree species is an important step in converting off‐site monocultures into woodlands. Species conversion is often necessary, as off‐site exotic species rarely function like woodland species. However, when off‐site tree species are native, and functionally redundant to woodland species, conversion may be unnecessary. To explore this possibility in the southeastern United States, we reviewed the literature on trait differences among the primary southern pines and qualitatively assessed the effect of their identity at the species and stand‐levels. In this region, woodland restoration focuses on removing loblolly (Pinus taeda) and slash pine (P. elliottii) to reestablish longleaf (P. palustris) or shortleaf pine (P. echinata). Our review found minimal variation among species in understory flammability, fire resistance at maturity, and Red‐cockaded Woodpecker (Leuconotopicus borealis) habitat at the stand‐level. Longleaf and shortleaf pine were generally more resistant to abiotic and pest disturbance at the tree‐level; however, stand‐level differences in wind, drought, and boring insect resistance among southern pines growing in open forests were considered minimal. Retaining loblolly and slash pine will improve stand‐level productivity in the short term, but creates regeneration problems due to low juvenile fire resistance and resilience. Ice resistance and long‐term carbon sequestration will also likely be reduced by retaining loblolly and slash pine. Collectively, these results suggest that southern pine species are generally interchangeable at the stand‐level in woodlands; although woodlands featuring loblolly and slash pine may be less stable in the face of disturbance than those dominated by shortleaf and longleaf pine.
Author	Kidd, Kathryn R. Schalk, Christopher M. Varner, J. Morgan Polinko, Adam D. Saenz, Daniel Sayer, Mary Anne Siegert, Courtney M. Self, Andrew B. Cannon, Jeffery B. Puhlick, Joshua J. Bragg, Don C. Gandhi, Kamal J. K. Willis, John L.
Author_xml	– sequence: 1 givenname: John L. surname: Willis fullname: Willis, John L. email: john.willis@usda.gov organization: USDA Forest Service – sequence: 2 givenname: Don C. surname: Bragg fullname: Bragg, Don C. organization: USDA Forest Service – sequence: 3 givenname: Jeffery B. surname: Cannon fullname: Cannon, Jeffery B. organization: The Jones Center at Ichauway – sequence: 4 givenname: Kamal J. K. surname: Gandhi fullname: Gandhi, Kamal J. K. organization: University of Georgia – sequence: 5 givenname: Kathryn R. surname: Kidd fullname: Kidd, Kathryn R. organization: Stephen F. Austin State University – sequence: 6 givenname: Adam D. surname: Polinko fullname: Polinko, Adam D. organization: Mississippi State University – sequence: 7 givenname: Joshua J. surname: Puhlick fullname: Puhlick, Joshua J. organization: The Jones Center at Ichauway – sequence: 8 givenname: Daniel surname: Saenz fullname: Saenz, Daniel organization: USDA Forest Service – sequence: 9 givenname: Mary Anne surname: Sayer fullname: Sayer, Mary Anne organization: USDA Forest Service – sequence: 10 givenname: Christopher M. surname: Schalk fullname: Schalk, Christopher M. organization: USDA Forest Service – sequence: 11 givenname: Andrew B. surname: Self fullname: Self, Andrew B. organization: Mississippi State University – sequence: 12 givenname: Courtney M. surname: Siegert fullname: Siegert, Courtney M. organization: Mississippi State University – sequence: 13 givenname: J. Morgan surname: Varner fullname: Varner, J. Morgan organization: Tall Timbers Research Station
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Notes	Author contributions: WJL conceived the research. JLW, DCB, JBC, KJKG, KRK, ADP, JJP, DS, MAS, CMSc, ABS, CMSi, JMV wrote and edited the manuscript. Deceased.
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Snippet	Reestablishing appropriate tree species is an important step in converting off‐site monocultures into woodlands. Species conversion is often necessary, as...
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SubjectTerms	Carbon sequestration Drought Evergreen trees Fire resistance Flammability forest structure Indigenous species Insects Introduced species Monoculture Pest resistance Pine Pine trees Pinus echinata Pinus elliottii Pinus spp Plant species Red‐cockaded Woodpecker Regeneration (biological) resistance Restoration southern pine Understory Woodlands
Title	Assessing the potential impact of retaining native off‐site tree species in woodland restoration
URI	https://onlinelibrary.wiley.com/doi/abs/10.1111%2Frec.14119 https://www.proquest.com/docview/3075436782
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