TY - JOUR
T1 - Principles and processes in conserving and restoring cultivated organic soils
T2 - promising avenues
AU - Caron, J.
AU - Gloutney, A.
AU - Rousseau, A. N.
AU - Montminy, G.
AU - Deragon, R.
AU - Boily, C.
AU - Bulot, D.
AU - Bourdon, K.
AU - Rémy, M.
AU - Grégoire, V.
AU - L'Heureux-Bilodeau, F.
AU - Kanga Idé, S.
AU - Gómez Lara, Y. E.
AU - Silva Dimaté, A. F.
AU - Daeichin, S.
AU - Smith, K.
AU - Bernard, C.
AU - Shooner, N.
AU - Guedessou, C. V.
AU - Frenette-Vallières, C.
AU - Fortin, J.
AU - Lefebvre, N.
AU - Tremblay, S.
AU - Libbrecht, C.
AU - Béliveau, M.
AU - Lherisson, R.
AU - Dessureault-Rompré, J.
N1 - Publisher Copyright:
© 2024 International Society for Horticultural Science. All rights reserved.
PY - 2024
Y1 - 2024
N2 - This paper discusses the primary processes involved in the degradation of cultivated organic soils (Histosols) in Canada: decomposition, subsidence, formation of a compacted horizon limiting drainage and last, but not least, wind erosion. The content is organized as follows: (i) description and quantification of the different mechanisms, (ii) overview of the different solutions for conserving and restoring these soils, and (iii) technical and economical assessments of the value of implementing soil conservation strategies for the benefits of future generations. At the annual scale, wind erosion, decomposition, and subsidence contribute nearly equally to organic soil losses. Overall, our investigations indicate that cultivated organic soils are losing about 2.1 to 2.4 cm per year. On top of that, drainage is gradually impaired due to the increasing development of compacted soil layers. As a result, biomass addition is needed to compensate for decomposition and wind erosion losses and to improve aeration of top layer. Drainage also needs to be improved by increasing tile drain density, digging trenches or growing permanent crops with deep rooting systems. Financial simulations suggest that cultivated organic soils will have improved productivity and return on investment on the long haul by implementing soil conservation and restoration practices.
AB - This paper discusses the primary processes involved in the degradation of cultivated organic soils (Histosols) in Canada: decomposition, subsidence, formation of a compacted horizon limiting drainage and last, but not least, wind erosion. The content is organized as follows: (i) description and quantification of the different mechanisms, (ii) overview of the different solutions for conserving and restoring these soils, and (iii) technical and economical assessments of the value of implementing soil conservation strategies for the benefits of future generations. At the annual scale, wind erosion, decomposition, and subsidence contribute nearly equally to organic soil losses. Overall, our investigations indicate that cultivated organic soils are losing about 2.1 to 2.4 cm per year. On top of that, drainage is gradually impaired due to the increasing development of compacted soil layers. As a result, biomass addition is needed to compensate for decomposition and wind erosion losses and to improve aeration of top layer. Drainage also needs to be improved by increasing tile drain density, digging trenches or growing permanent crops with deep rooting systems. Financial simulations suggest that cultivated organic soils will have improved productivity and return on investment on the long haul by implementing soil conservation and restoration practices.
KW - carrots
KW - cultivated organic soils
KW - Histosols
KW - lettuce
KW - onions
KW - soil conservation
KW - soil restoration
UR - http://www.scopus.com/inward/record.url?scp=85193298998&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=85193298998&partnerID=8YFLogxK
U2 - 10.17660/ACTAHORTIC.2024.1389.31
DO - 10.17660/ACTAHORTIC.2024.1389.31
M3 - Article
AN - SCOPUS:85193298998
SN - 0567-7572
SP - 271
EP - 292
JO - Acta Horticulturae
JF - Acta Horticulturae
IS - 1389
ER -