Techniques for seedling production of two native grasses: new perspectives for Brazilian Cerrado restoration

There is a major need for restoration of nonforest ecosystems in the Brazilian Cerrado, and planting seedlings is promising. However, there is no currently available information on nontree species production in nurseries. Grasses are dominant in the Cerrado herbaceous layer; therefore, we tested whe...

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Published in:	Restoration ecology Vol. 28; no. 2; pp. 297 - 303
Main Authors:	Oliveira, Ana C. C., Forti, Victor A., Paula Loiola, Priscilla, Viani, Ricardo A. G.
Format:	Journal Article
Language:	English
Published:	Malden, USA Wiley Periodicals, Inc 01.03.2020 Blackwell Publishing Ltd
Subjects:	Biomass Cerrado Chrysothrix Containers ecological restoration ecoregions ecosystems Factorial experiments Grasses ground vegetation Growth rate Height herbaceous layer herbaceous plants Herbivores indigenous species Nurseries nursery planting Restoration sand Schizachyrium seedbeds seedling growth seedling production Seedlings Seeds Soil Soils Species Substrates Survival survival rate tillering trees Cerrado
ISSN:	1061-2971, 1526-100X
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Abstract	There is a major need for restoration of nonforest ecosystems in the Brazilian Cerrado, and planting seedlings is promising. However, there is no currently available information on nontree species production in nurseries. Grasses are dominant in the Cerrado herbaceous layer; therefore, we tested whether tree seedling production techniques can be used for two native grasses widely spread across the Cerrado ecoregion (Schizachyrium sanguineum and Loudetiopsis chrysothrix). We performed a factorial experiment with three levels: (1) seedbed substrate, (2) container volume, and (3) final substrate. Seeds were germinated in seedbeds with native soil or sand and, after emergence, transferred to 30, 55, or 290 cm3 containers filled with native soil, commercial substrate, or a mixture thereof. We evaluated seedling survival, height relative growth rate (RGR), tillering, and dry biomass. Survival rates after transfer from seedbeds to containers were greater than 80% for both species. Generally, species had greater height RGR, tillering, and biomass in the 290 cm3 containers than in the other containers, and the presence of native soil in the seedbeds, as well as in the containers, fostered seedling growth. However, the use of native soil is not recommended for large‐scale production, because its acquisition could degrade Cerrado areas. The commercial substrate improvement could be an alternative to increase seedling growth, since grasses survived well and presented greater growth in the largest container. Our study demonstrated that the techniques currently used in commercial nurseries for growing trees are suitable for both grasses, and substrates and container size drive seedling growth.
AbstractList	There is a major need for restoration of nonforest ecosystems in the Brazilian Cerrado, and planting seedlings is promising. However, there is no currently available information on nontree species production in nurseries. Grasses are dominant in the Cerrado herbaceous layer; therefore, we tested whether tree seedling production techniques can be used for two native grasses widely spread across the Cerrado ecoregion ( Schizachyrium sanguineum and Loudetiopsis chrysothrix ). We performed a factorial experiment with three levels: (1) seedbed substrate, (2) container volume, and (3) final substrate. Seeds were germinated in seedbeds with native soil or sand and, after emergence, transferred to 30, 55, or 290 cm 3 containers filled with native soil, commercial substrate, or a mixture thereof. We evaluated seedling survival, height relative growth rate (RGR), tillering, and dry biomass. Survival rates after transfer from seedbeds to containers were greater than 80% for both species. Generally, species had greater height RGR, tillering, and biomass in the 290 cm 3 containers than in the other containers, and the presence of native soil in the seedbeds, as well as in the containers, fostered seedling growth. However, the use of native soil is not recommended for large‐scale production, because its acquisition could degrade Cerrado areas. The commercial substrate improvement could be an alternative to increase seedling growth, since grasses survived well and presented greater growth in the largest container. Our study demonstrated that the techniques currently used in commercial nurseries for growing trees are suitable for both grasses, and substrates and container size drive seedling growth. There is a major need for restoration of nonforest ecosystems in the Brazilian Cerrado, and planting seedlings is promising. However, there is no currently available information on nontree species production in nurseries. Grasses are dominant in the Cerrado herbaceous layer; therefore, we tested whether tree seedling production techniques can be used for two native grasses widely spread across the Cerrado ecoregion (Schizachyrium sanguineum and Loudetiopsis chrysothrix). We performed a factorial experiment with three levels: (1) seedbed substrate, (2) container volume, and (3) final substrate. Seeds were germinated in seedbeds with native soil or sand and, after emergence, transferred to 30, 55, or 290 cm3 containers filled with native soil, commercial substrate, or a mixture thereof. We evaluated seedling survival, height relative growth rate (RGR), tillering, and dry biomass. Survival rates after transfer from seedbeds to containers were greater than 80% for both species. Generally, species had greater height RGR, tillering, and biomass in the 290 cm3 containers than in the other containers, and the presence of native soil in the seedbeds, as well as in the containers, fostered seedling growth. However, the use of native soil is not recommended for large‐scale production, because its acquisition could degrade Cerrado areas. The commercial substrate improvement could be an alternative to increase seedling growth, since grasses survived well and presented greater growth in the largest container. Our study demonstrated that the techniques currently used in commercial nurseries for growing trees are suitable for both grasses, and substrates and container size drive seedling growth. There is a major need for restoration of nonforest ecosystems in the Brazilian Cerrado, and planting seedlings is promising. However, there is no currently available information on nontree species production in nurseries. Grasses are dominant in the Cerrado herbaceous layer; therefore, we tested whether tree seedling production techniques can be used for two native grasses widely spread across the Cerrado ecoregion (Schizachyrium sanguineum and Loudetiopsis chrysothrix). We performed a factorial experiment with three levels: (1) seedbed substrate, (2) container volume, and (3) final substrate. Seeds were germinated in seedbeds with native soil or sand and, after emergence, transferred to 30, 55, or 290 cm³ containers filled with native soil, commercial substrate, or a mixture thereof. We evaluated seedling survival, height relative growth rate (RGR), tillering, and dry biomass. Survival rates after transfer from seedbeds to containers were greater than 80% for both species. Generally, species had greater height RGR, tillering, and biomass in the 290 cm³ containers than in the other containers, and the presence of native soil in the seedbeds, as well as in the containers, fostered seedling growth. However, the use of native soil is not recommended for large‐scale production, because its acquisition could degrade Cerrado areas. The commercial substrate improvement could be an alternative to increase seedling growth, since grasses survived well and presented greater growth in the largest container. Our study demonstrated that the techniques currently used in commercial nurseries for growing trees are suitable for both grasses, and substrates and container size drive seedling growth.
Author	Paula Loiola, Priscilla Forti, Victor A. Viani, Ricardo A. G. Oliveira, Ana C. C.
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Cites_doi	10.1111/rec.12902 10.1111/brv.12470 10.1111/rec.12252 10.1111/rec.12537 10.1002/1522-2624(200110)164:5<487::AID-JPLN487>3.0.CO;2-I 10.1007/s11056-017-9606-4 10.1007/s11356-015-5548-6 10.1111/rec.12470 10.1007/s11056-005-7480-y 10.1111/rec.12287 10.1111/rec.12534 10.1093/biosci/biv118 10.1590/S1413-70542008000400002 10.1007/978-94-010-9117-6_3 10.1007/s40415-017-0371-6 10.1007/s004420050993 10.1016/j.agee.2010.10.011 10.1023/B:VEGE.0000026043.27342.e2 10.1186/s12862-016-0698-9 10.1016/j.ecoleng.2019.07.025 10.1111/j.1061-2971.2004.00009.x 10.1016/j.ppees.2009.09.003 10.1111/avsc.12074 10.1590/0102-33062015abb0199 10.1007/s11258-004-0023-3 10.1007/s11104-011-0879-7 10.1098/rstb.2015.0313 10.1126/sciadv.1701284 10.4322/natcon.2013.015
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Snippet	There is a major need for restoration of nonforest ecosystems in the Brazilian Cerrado, and planting seedlings is promising. However, there is no currently...
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SubjectTerms	Biomass Cerrado Chrysothrix Containers ecological restoration ecoregions ecosystems Factorial experiments Grasses ground vegetation Growth rate Height herbaceous layer herbaceous plants Herbivores indigenous species Nurseries nursery planting Restoration sand Schizachyrium seedbeds seedling growth seedling production Seedlings Seeds Soil Soils Species Substrates Survival survival rate tillering trees
Title	Techniques for seedling production of two native grasses: new perspectives for Brazilian Cerrado restoration
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