Soil biota from newly established orchards are more beneficial to early growth of cherry trees than biota from older orchards

Growth of young fruit trees replanted into old orchard soil is often poor relative to growth in soil that has not previously been planted with fruit trees. There is evidence that a consortium of deleterious soil biota, commonly referred to as the replant disease complex, are responsible for this poo...

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Published inApplied soil ecology : a section of Agriculture, ecosystems & environment Vol. 155; p. 103658
Main Authors Munro, Paige, Forge, Tom A., Jones, Melanie D., Nelson, Louise M.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.11.2020
Subjects
British Columbia
cherries
fluorescein diacetate hydrolysis
fruit trees
fruits
microbial activity
orchard soils
orchards
plant growth
Pratylenchus
regression analysis
Replant disease
soil biota
soil ecology
Soil microbial activity
Sweet cherry
British Columbia
Sweet cherry
FDA
Pratylenchus
Soil microbial activity
POXC
Replant disease
Online AccessGet full text
ISSN0929-1393
1873-0272
DOI10.1016/j.apsoil.2020.103658

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Abstract Growth of young fruit trees replanted into old orchard soil is often poor relative to growth in soil that has not previously been planted with fruit trees. There is evidence that a consortium of deleterious soil biota, commonly referred to as the replant disease complex, are responsible for this poor early growth. We used a bioassay, comparing cherry plant growth in sterilized and non-sterilized subsamples of soil, to assess the net effect of soil biota from 18 orchards in the Okanagan Valley of British Columbia, Canada with differing histories of fruit tree production (previously cropped ‘old’ orchards, and not previously cropped ‘young’ orchards). Generally, shoot height increment was larger in non-sterile soil from young orchards than from old orchards (two-factor ANOVA; P < .001). When soil from young orchards was sterilized plant weight was lower, compared to the non-sterilized counterpart (two-factor ANOVA; P = .006). Pratylenchus populations in root tissue were greater in plants grown in old orchard soils than in young orchard soils (one-factor ANOVA; P < .001). Multiple regression analyses showed that FDA hydrolysis, an indicator of microbial activity, was the only variable that significantly predicted plant growth response to sterilization for the variables shoot height increment (R2 = 0.6; P = .001) and plant weight (R2 = 0.5; P = .002). Overall, results from this study suggest that management practices that stimulate microbial activity will benefit growth of cherry trees in previously cropped ‘old’ orchards, and not previously cropped ‘young’ orchards. •Plants grew better in young orchard soils than in old orchard soils.•Sterilizing young orchard soil decreased growth indicating beneficial soil biota.•Root infection by Pratylenchus nematodes was higher in old than young orchard soils.•Microbial activity predicted plant growth response to sterilization.•Root infection by Pratylenchus was negatively related to microbial activity.
AbstractList Growth of young fruit trees replanted into old orchard soil is often poor relative to growth in soil that has not previously been planted with fruit trees. There is evidence that a consortium of deleterious soil biota, commonly referred to as the replant disease complex, are responsible for this poor early growth. We used a bioassay, comparing cherry plant growth in sterilized and non-sterilized subsamples of soil, to assess the net effect of soil biota from 18 orchards in the Okanagan Valley of British Columbia, Canada with differing histories of fruit tree production (previously cropped ‘old’ orchards, and not previously cropped ‘young’ orchards). Generally, shoot height increment was larger in non-sterile soil from young orchards than from old orchards (two-factor ANOVA; P < .001). When soil from young orchards was sterilized plant weight was lower, compared to the non-sterilized counterpart (two-factor ANOVA; P = .006). Pratylenchus populations in root tissue were greater in plants grown in old orchard soils than in young orchard soils (one-factor ANOVA; P < .001). Multiple regression analyses showed that FDA hydrolysis, an indicator of microbial activity, was the only variable that significantly predicted plant growth response to sterilization for the variables shoot height increment (R2 = 0.6; P = .001) and plant weight (R2 = 0.5; P = .002). Overall, results from this study suggest that management practices that stimulate microbial activity will benefit growth of cherry trees in previously cropped ‘old’ orchards, and not previously cropped ‘young’ orchards. •Plants grew better in young orchard soils than in old orchard soils.•Sterilizing young orchard soil decreased growth indicating beneficial soil biota.•Root infection by Pratylenchus nematodes was higher in old than young orchard soils.•Microbial activity predicted plant growth response to sterilization.•Root infection by Pratylenchus was negatively related to microbial activity.
Growth of young fruit trees replanted into old orchard soil is often poor relative to growth in soil that has not previously been planted with fruit trees. There is evidence that a consortium of deleterious soil biota, commonly referred to as the replant disease complex, are responsible for this poor early growth. We used a bioassay, comparing cherry plant growth in sterilized and non-sterilized subsamples of soil, to assess the net effect of soil biota from 18 orchards in the Okanagan Valley of British Columbia, Canada with differing histories of fruit tree production (previously cropped ‘old’ orchards, and not previously cropped ‘young’ orchards). Generally, shoot height increment was larger in non-sterile soil from young orchards than from old orchards (two-factor ANOVA; P < .001). When soil from young orchards was sterilized plant weight was lower, compared to the non-sterilized counterpart (two-factor ANOVA; P = .006). Pratylenchus populations in root tissue were greater in plants grown in old orchard soils than in young orchard soils (one-factor ANOVA; P < .001). Multiple regression analyses showed that FDA hydrolysis, an indicator of microbial activity, was the only variable that significantly predicted plant growth response to sterilization for the variables shoot height increment (R² = 0.6; P = .001) and plant weight (R² = 0.5; P = .002). Overall, results from this study suggest that management practices that stimulate microbial activity will benefit growth of cherry trees in previously cropped ‘old’ orchards, and not previously cropped ‘young’ orchards.
ArticleNumber 103658
Author Forge, Tom A.
Jones, Melanie D.
Nelson, Louise M.
Munro, Paige
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  givenname: Louise M.
  surname: Nelson
  fullname: Nelson, Louise M.
  organization: Biology Department, The University of British Columbia – Okanagan Campus, Kelowna V1V 1V7, British Columbia, Canada
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Keywords Sweet cherry
FDA
Pratylenchus
Soil microbial activity
POXC
Replant disease
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SSID ssj0005283
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Snippet Growth of young fruit trees replanted into old orchard soil is often poor relative to growth in soil that has not previously been planted with fruit trees....
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StartPage 103658
SubjectTerms British Columbia
cherries
fluorescein diacetate hydrolysis
fruit trees
fruits
microbial activity
orchard soils
orchards
plant growth
Pratylenchus
regression analysis
Replant disease
soil biota
soil ecology
Soil microbial activity
Sweet cherry
Title Soil biota from newly established orchards are more beneficial to early growth of cherry trees than biota from older orchards
URI https://dx.doi.org/10.1016/j.apsoil.2020.103658
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