Establishment of Regional Phytoremediation Buffer Systems for Ecological Restoration in the Great Lakes Basin, USA. II. New Clones Show Exceptional Promise

Establishment of Regional Phytoremediation Buffer Systems for Ecological Restoration in the Great Lakes Basin, USA. II. New Clones Show Exceptional Promise

Poplar tree improvement strategies are needed to enhance ecosystem services’ provisioning and achieve phytoremediation objectives. We evaluated the establishment potential of new poplar clones developed at the University of Minnesota Duluth, Natural Resources Research Institute (NRRI) from sixteen p...

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Main Authors: Andrej Pilipović, Ronald S. Zalesny, Elizabeth R. Rogers, Bernard G. McMahon, Neil D. Nelson, Joel G. Burken, Richard A. Hallett, Chung-Ho Lin
Format: Article
Language:English
Published: MDPI AG 2021-04-01
Series:Forests
Subjects:
clonal selection
genotype × environment (G × E) interactions
multi-environmental trials (MET)
phenotypic plasticity
phyto buffers
phyto-recurrent selection
Online Access:https://www.mdpi.com/1999-4907/12/4/474
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spelling doaj-bcc9c2d5108542a8936ca3ec4374309f2021-04-13T23:03:24ZengMDPI AGForests1999-49072021-04-011247447410.3390/f12040474Establishment of Regional Phytoremediation Buffer Systems for Ecological Restoration in the Great Lakes Basin, USA. II. New Clones Show Exceptional PromiseAndrej Pilipović0Ronald S. Zalesny1Elizabeth R. Rogers2Bernard G. McMahon3Neil D. Nelson4Joel G. Burken5Richard A. Hallett6Chung-Ho Lin7Institute of Lowland Forestry and Environment, University of Novi Sad, 21000 Novi Sad, SerbiaUSDA Forest Service, Northern Research Station, Institute for Applied Ecosystem Studies, Rhinelander, WI 54501, USAUSDA Forest Service, Northern Research Station, Institute for Applied Ecosystem Studies, Rhinelander, WI 54501, USANatural Resources Research Institute, University of Minnesota Duluth, Duluth, MN 55807, USANatural Resources Research Institute, University of Minnesota Duluth, Duluth, MN 55807, USACivil, Architectural, and Environmental Engineering, Missouri University of Science and Technology, Rolla, MO 65401, USAUSDA Forest Service, Northern Research Station, New York City Urban Field Station, Bayside, NY 11360, USASchool of Natural Resources, Center for Agroforestry, University of Missouri–Columbia, Columbia, MO 65201, USAPoplar tree improvement strategies are needed to enhance ecosystem services’ provisioning and achieve phytoremediation objectives. We evaluated the establishment potential of new poplar clones developed at the University of Minnesota Duluth, Natural Resources Research Institute (NRRI) from sixteen phytoremediation buffer systems (phyto buffers) (buffer groups: 2017 × 6; 2018 × 5; 2019 × 5) throughout the Lake Superior and Lake Michigan watersheds. We divided clones into Experimental (testing stage genotypes) and Common (commercial and/or research genotypes) clone groups and compared them with each other and each NRRI clone (NRRI group) at the phyto buffers. We tested for differences in clone groups, phyto buffers, and their interactions for survival, health, height, diameter, and volume from ages one to four years. First-year survival was 97.1%, with 95.5%, 96.2%, and 99.6% for the 2017, 2018, and 2019 buffer groups, respectively. All trees had optimal health. Fourth-year mean annual increment of 2017 buffer group trees ranged from 2.66 ± 0.18 to 3.65 ± 0.17 Mg ha<sup>−1</sup> yr<sup>−1</sup>. NRRI clones ‘99038022’ and ‘9732-31’ exhibited exceptional survival and growth across eleven and ten phyto buffers, respectively, for all years. These approaches advance poplar tree improvement efforts throughout the region, continent, and world, with methods informing clonal selection for multiple end-uses, including phytotechnologies.https://www.mdpi.com/1999-4907/12/4/474clonal selectiongenotype × environment (G × E) interactionsmulti-environmental trials (MET)phenotypic plasticityphyto buffersphyto-recurrent selection
collection DOAJ
language English
format Article
sources DOAJ
author Andrej Pilipović
Ronald S. Zalesny
Elizabeth R. Rogers
Bernard G. McMahon
Neil D. Nelson
Joel G. Burken
Richard A. Hallett
Chung-Ho Lin
spellingShingle Andrej Pilipović
Ronald S. Zalesny
Elizabeth R. Rogers
Bernard G. McMahon
Neil D. Nelson
Joel G. Burken
Richard A. Hallett
Chung-Ho Lin
Establishment of Regional Phytoremediation Buffer Systems for Ecological Restoration in the Great Lakes Basin, USA. II. New Clones Show Exceptional Promise
Forests
clonal selection
genotype × environment (G × E) interactions
multi-environmental trials (MET)
phenotypic plasticity
phyto buffers
phyto-recurrent selection
author_facet Andrej Pilipović
Ronald S. Zalesny
Elizabeth R. Rogers
Bernard G. McMahon
Neil D. Nelson
Joel G. Burken
Richard A. Hallett
Chung-Ho Lin
author_sort Andrej Pilipović
title Establishment of Regional Phytoremediation Buffer Systems for Ecological Restoration in the Great Lakes Basin, USA. II. New Clones Show Exceptional Promise
title_short Establishment of Regional Phytoremediation Buffer Systems for Ecological Restoration in the Great Lakes Basin, USA. II. New Clones Show Exceptional Promise
title_full Establishment of Regional Phytoremediation Buffer Systems for Ecological Restoration in the Great Lakes Basin, USA. II. New Clones Show Exceptional Promise
title_fullStr Establishment of Regional Phytoremediation Buffer Systems for Ecological Restoration in the Great Lakes Basin, USA. II. New Clones Show Exceptional Promise
title_full_unstemmed Establishment of Regional Phytoremediation Buffer Systems for Ecological Restoration in the Great Lakes Basin, USA. II. New Clones Show Exceptional Promise
title_sort establishment of regional phytoremediation buffer systems for ecological restoration in the great lakes basin, usa. ii. new clones show exceptional promise
publisher MDPI AG
series Forests
issn 1999-4907
publishDate 2021-04-01
description Poplar tree improvement strategies are needed to enhance ecosystem services’ provisioning and achieve phytoremediation objectives. We evaluated the establishment potential of new poplar clones developed at the University of Minnesota Duluth, Natural Resources Research Institute (NRRI) from sixteen phytoremediation buffer systems (phyto buffers) (buffer groups: 2017 × 6; 2018 × 5; 2019 × 5) throughout the Lake Superior and Lake Michigan watersheds. We divided clones into Experimental (testing stage genotypes) and Common (commercial and/or research genotypes) clone groups and compared them with each other and each NRRI clone (NRRI group) at the phyto buffers. We tested for differences in clone groups, phyto buffers, and their interactions for survival, health, height, diameter, and volume from ages one to four years. First-year survival was 97.1%, with 95.5%, 96.2%, and 99.6% for the 2017, 2018, and 2019 buffer groups, respectively. All trees had optimal health. Fourth-year mean annual increment of 2017 buffer group trees ranged from 2.66 ± 0.18 to 3.65 ± 0.17 Mg ha<sup>−1</sup> yr<sup>−1</sup>. NRRI clones ‘99038022’ and ‘9732-31’ exhibited exceptional survival and growth across eleven and ten phyto buffers, respectively, for all years. These approaches advance poplar tree improvement efforts throughout the region, continent, and world, with methods informing clonal selection for multiple end-uses, including phytotechnologies.
topic clonal selection
genotype × environment (G × E) interactions
multi-environmental trials (MET)
phenotypic plasticity
phyto buffers
phyto-recurrent selection
url https://www.mdpi.com/1999-4907/12/4/474
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