Recommendations for successful establishment of sphagnum farming on shallow highly decomposed peat

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Amanda Grobe
  • Bärbel Tiemeyer
  • Martha Graf

Organisationseinheiten

Externe Organisationen

  • Johann Heinrich von Thünen-Institut, Bundesforschungsinstitut für Ländliche Räume, Wald und Fischerei
  • Landesamt für Bergbau, Energie und Geologie (LBEG)
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Details

OriginalspracheEnglisch
Aufsatznummer27
FachzeitschriftMires and peat
Jahrgang27
PublikationsstatusVeröffentlicht - 28 Okt. 2021

Abstract

Sphagnum farming aims to produce peat moss fibres for horticultural growing media or founder material for bog restoration. The objective of this study was to examine the establishment of Sphagnum on cut-over bog with shallow layers (average 78 cm) of highly decomposed “black peat” under different hydrological starting conditions. One of the two study sites in northwestern Germany was established directly after peat extraction, while the other one has been rewetted 7 years prior to its installation. Irrigation ditches were installed on these sites for water management. Sphagnum fragments were introduced and covered with straw mulch or geotextile for protection. The establishment of Sphagnum and the site conditions, including vascular plant growth, were evaluated to determine the supporting and limiting factors for Sphagnum farming under the difficult hydrological conditions of shallow highly decomposed peat (low porosity, low hydraulic conductivity). The cultivation of Sphagnum mosses is possible on shallow layers of highly decomposed peat. Sphagnum growth in cover and carpet thickness was significantly higher at the site that had previously been rewetted and had a thicker layer of residual peat. The areas covered with a geotextile showed significantly lower percentages of Sphagnum cover compared to those covered with straw mulch. While sufficient water quantity and quality are known to be prerequisites for Sphagnum farming, a sufficient peat layer thickness seems to be an additional factor for successful Sphagnum establishment and growth. Maintaining an optimal water table proved to be a challenge for these shallow layers of highly decomposed peat, as the low hydraulic conductivity of the peat has impeded a complete irrigation of the sites. Furthermore, the irrigation effort might need to be increased to compensate for additional water loss into the subsoil. On such sites with difficult hydrological and soil conditions, a favourable microclimate provided by vascular plants and a rewetted surrounding area can promote successful establishment of Sphagnum and can even partially counterbalance effects of a low water table.

ASJC Scopus Sachgebiete

Ziele für nachhaltige Entwicklung

Zitieren

Recommendations for successful establishment of sphagnum farming on shallow highly decomposed peat. / Grobe, Amanda; Tiemeyer, Bärbel; Graf, Martha.
in: Mires and peat, Jahrgang 27, 27, 28.10.2021.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Grobe A, Tiemeyer B, Graf M. Recommendations for successful establishment of sphagnum farming on shallow highly decomposed peat. Mires and peat. 2021 Okt 28;27:27. doi: 10.19189/MaP.2020.APG.StA.2022
Grobe, Amanda ; Tiemeyer, Bärbel ; Graf, Martha. / Recommendations for successful establishment of sphagnum farming on shallow highly decomposed peat. in: Mires and peat. 2021 ; Jahrgang 27.
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abstract = "Sphagnum farming aims to produce peat moss fibres for horticultural growing media or founder material for bog restoration. The objective of this study was to examine the establishment of Sphagnum on cut-over bog with shallow layers (average 78 cm) of highly decomposed “black peat” under different hydrological starting conditions. One of the two study sites in northwestern Germany was established directly after peat extraction, while the other one has been rewetted 7 years prior to its installation. Irrigation ditches were installed on these sites for water management. Sphagnum fragments were introduced and covered with straw mulch or geotextile for protection. The establishment of Sphagnum and the site conditions, including vascular plant growth, were evaluated to determine the supporting and limiting factors for Sphagnum farming under the difficult hydrological conditions of shallow highly decomposed peat (low porosity, low hydraulic conductivity). The cultivation of Sphagnum mosses is possible on shallow layers of highly decomposed peat. Sphagnum growth in cover and carpet thickness was significantly higher at the site that had previously been rewetted and had a thicker layer of residual peat. The areas covered with a geotextile showed significantly lower percentages of Sphagnum cover compared to those covered with straw mulch. While sufficient water quantity and quality are known to be prerequisites for Sphagnum farming, a sufficient peat layer thickness seems to be an additional factor for successful Sphagnum establishment and growth. Maintaining an optimal water table proved to be a challenge for these shallow layers of highly decomposed peat, as the low hydraulic conductivity of the peat has impeded a complete irrigation of the sites. Furthermore, the irrigation effort might need to be increased to compensate for additional water loss into the subsoil. On such sites with difficult hydrological and soil conditions, a favourable microclimate provided by vascular plants and a rewetted surrounding area can promote successful establishment of Sphagnum and can even partially counterbalance effects of a low water table.",
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author = "Amanda Grobe and B{\"a}rbel Tiemeyer and Martha Graf",
note = "Funding Information: The establishment of the cultivation sites and the accompanied research were funded by the Lower Saxony Ministry for Nutrition, Agriculture and Consumer Protection (ML, AZ 105.1-3234/1-13-3) and the German Federal Environmental Foundation (DBU, AZ 33305/01-33/0), whose support is gratefully acknowledged. The permissions granted by the Weser-Ems Office for Regional State Development (State Bog Administration) and the County Emsland facilitated the project. We thank our project partners Klasmann-Deilmann GmbH for the productive cooperation. Dr. Ullrich Dettmann, Mareille Wittnebel and Jan Oestmann provided data regarding soil properties and water quality. Dr. Arndt Piayda has contributed valuable data on hydraulic conductivity. Dr. Michel Bechtold's adaptation of the BRT model considerably improved the data analysis. Prof. Dr. Michael Rode has provided valuable insights and advice. Their contributions are kindly appreciated. We also thank the students who helped in the field and in the laboratory.",
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T1 - Recommendations for successful establishment of sphagnum farming on shallow highly decomposed peat

AU - Grobe, Amanda

AU - Tiemeyer, Bärbel

AU - Graf, Martha

N1 - Funding Information: The establishment of the cultivation sites and the accompanied research were funded by the Lower Saxony Ministry for Nutrition, Agriculture and Consumer Protection (ML, AZ 105.1-3234/1-13-3) and the German Federal Environmental Foundation (DBU, AZ 33305/01-33/0), whose support is gratefully acknowledged. The permissions granted by the Weser-Ems Office for Regional State Development (State Bog Administration) and the County Emsland facilitated the project. We thank our project partners Klasmann-Deilmann GmbH for the productive cooperation. Dr. Ullrich Dettmann, Mareille Wittnebel and Jan Oestmann provided data regarding soil properties and water quality. Dr. Arndt Piayda has contributed valuable data on hydraulic conductivity. Dr. Michel Bechtold's adaptation of the BRT model considerably improved the data analysis. Prof. Dr. Michael Rode has provided valuable insights and advice. Their contributions are kindly appreciated. We also thank the students who helped in the field and in the laboratory.

PY - 2021/10/28

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N2 - Sphagnum farming aims to produce peat moss fibres for horticultural growing media or founder material for bog restoration. The objective of this study was to examine the establishment of Sphagnum on cut-over bog with shallow layers (average 78 cm) of highly decomposed “black peat” under different hydrological starting conditions. One of the two study sites in northwestern Germany was established directly after peat extraction, while the other one has been rewetted 7 years prior to its installation. Irrigation ditches were installed on these sites for water management. Sphagnum fragments were introduced and covered with straw mulch or geotextile for protection. The establishment of Sphagnum and the site conditions, including vascular plant growth, were evaluated to determine the supporting and limiting factors for Sphagnum farming under the difficult hydrological conditions of shallow highly decomposed peat (low porosity, low hydraulic conductivity). The cultivation of Sphagnum mosses is possible on shallow layers of highly decomposed peat. Sphagnum growth in cover and carpet thickness was significantly higher at the site that had previously been rewetted and had a thicker layer of residual peat. The areas covered with a geotextile showed significantly lower percentages of Sphagnum cover compared to those covered with straw mulch. While sufficient water quantity and quality are known to be prerequisites for Sphagnum farming, a sufficient peat layer thickness seems to be an additional factor for successful Sphagnum establishment and growth. Maintaining an optimal water table proved to be a challenge for these shallow layers of highly decomposed peat, as the low hydraulic conductivity of the peat has impeded a complete irrigation of the sites. Furthermore, the irrigation effort might need to be increased to compensate for additional water loss into the subsoil. On such sites with difficult hydrological and soil conditions, a favourable microclimate provided by vascular plants and a rewetted surrounding area can promote successful establishment of Sphagnum and can even partially counterbalance effects of a low water table.

AB - Sphagnum farming aims to produce peat moss fibres for horticultural growing media or founder material for bog restoration. The objective of this study was to examine the establishment of Sphagnum on cut-over bog with shallow layers (average 78 cm) of highly decomposed “black peat” under different hydrological starting conditions. One of the two study sites in northwestern Germany was established directly after peat extraction, while the other one has been rewetted 7 years prior to its installation. Irrigation ditches were installed on these sites for water management. Sphagnum fragments were introduced and covered with straw mulch or geotextile for protection. The establishment of Sphagnum and the site conditions, including vascular plant growth, were evaluated to determine the supporting and limiting factors for Sphagnum farming under the difficult hydrological conditions of shallow highly decomposed peat (low porosity, low hydraulic conductivity). The cultivation of Sphagnum mosses is possible on shallow layers of highly decomposed peat. Sphagnum growth in cover and carpet thickness was significantly higher at the site that had previously been rewetted and had a thicker layer of residual peat. The areas covered with a geotextile showed significantly lower percentages of Sphagnum cover compared to those covered with straw mulch. While sufficient water quantity and quality are known to be prerequisites for Sphagnum farming, a sufficient peat layer thickness seems to be an additional factor for successful Sphagnum establishment and growth. Maintaining an optimal water table proved to be a challenge for these shallow layers of highly decomposed peat, as the low hydraulic conductivity of the peat has impeded a complete irrigation of the sites. Furthermore, the irrigation effort might need to be increased to compensate for additional water loss into the subsoil. On such sites with difficult hydrological and soil conditions, a favourable microclimate provided by vascular plants and a rewetted surrounding area can promote successful establishment of Sphagnum and can even partially counterbalance effects of a low water table.

KW - Alternative substrates

KW - Biomass

KW - Paludiculture

KW - Peat moss cultivation

KW - Water management

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U2 - 10.19189/MaP.2020.APG.StA.2022

DO - 10.19189/MaP.2020.APG.StA.2022

M3 - Article

AN - SCOPUS:85118502217

VL - 27

JO - Mires and peat

JF - Mires and peat

SN - 1819-754X

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