Chrysanthemum Growth Gains from Beneficial Microbial Interactions and Fertility Improvements in Soil Under Protected Cultivation

Chrysanthemum Growth Gains from Beneficial Microbial Interactions and Fertility Improvements in Soil Under Protected Cultivation

An investigation was undertaken to analyse the influence of microbial inoculants on growth and enzyme activities elicited, and soil microbiome of two varieties of Chrysanthemum morifolium Ramat, which were grown under protected mode of cultivation. Rhizosphere soil sampling at 45 and 90 DAT (days af...

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Main Authors: Radha Prasanna, Amrita Kanchan, Simranjit Kaur, Balasubramanian Ramakrishnan, Kunal Ranjan, Mam Chand Singh, Murtaza Hasan, Anil Kumar Saxena, Yashbir Singh Shivay
Format: Article
Language:English
Published: KeAi Communications Co., Ltd. 2016-07-01
Series:Horticultural Plant Journal
Subjects:
microbial interaction
biofilm
cyanobacteria
DGGE
floriculture
soil fertility
Online Access:http://www.sciencedirect.com/science/article/pii/S2468014116300103
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spelling doaj-79f3c1a7abf54a6eb489c11cb87ff3ea2021-04-02T12:10:19ZengKeAi Communications Co., Ltd.Horticultural Plant Journal2468-01412016-07-012422923910.1016/j.hpj.2016.08.008Chrysanthemum Growth Gains from Beneficial Microbial Interactions and Fertility Improvements in Soil Under Protected CultivationRadha Prasanna0Amrita Kanchan1Simranjit Kaur2Balasubramanian Ramakrishnan3Kunal Ranjan4Mam Chand Singh5Murtaza Hasan6Anil Kumar Saxena7Yashbir Singh Shivay8Division of Microbiology, ICAR — Indian Agricultural Research Institute, New Delhi 110012, IndiaDivision of Microbiology, ICAR — Indian Agricultural Research Institute, New Delhi 110012, IndiaDivision of Microbiology, ICAR — Indian Agricultural Research Institute, New Delhi 110012, IndiaDivision of Microbiology, ICAR — Indian Agricultural Research Institute, New Delhi 110012, IndiaDivision of Microbiology, ICAR — Indian Agricultural Research Institute, New Delhi 110012, IndiaCentre for Protected Cultivation Technology (CPCT), ICAR — Indian Agricultural Research Institute, New Delhi 110012, IndiaCentre for Protected Cultivation Technology (CPCT), ICAR — Indian Agricultural Research Institute, New Delhi 110012, IndiaDivision of Microbiology, ICAR — Indian Agricultural Research Institute, New Delhi 110012, IndiaDivision of Agronomy, ICAR — Indian Agricultural Research Institute, New Delhi 110012, IndiaAn investigation was undertaken to analyse the influence of microbial inoculants on growth and enzyme activities elicited, and soil microbiome of two varieties of Chrysanthemum morifolium Ramat, which were grown under protected mode of cultivation. Rhizosphere soil sampling at 45 and 90 DAT (days after transplanting of cuttings) revealed up to four- to five-fold enhancement in the activity of defence-, and pathogenesis-related, and antioxidant enzymes, relative to the uninoculated control. Plant growth and soil microbial parameters, especially soil microbial biomass carbon and potential nitrification exhibited significant increases over control. Available soil nitrogen concentrations showed 40%–44% increment in inoculated treatments. Scanning electron microscopy of the root tissues revealed biofilm-like aggregates and individual short bits of cyanobacterial filaments. Analyses of DGGE profiles of archaeal and bacterial communities did not show temporal variations (between 45 and 90 DAT). However, distinct influences on the number and abundance of phylotypes due to microbial inoculants were recorded. The inoculants — Cyanobacterial consortium (BF1- 4) and Anabaena sp.–Trichoderma sp. biofilm (An-Tr) were particularly promising in terms of the plant and soil related parameters, and remained distinct in the DGGE profiles generated. The effect of Trichoderma viride–Azotobacter biofilm on soil bacterial and archaeal communities was unique and distinct as a separate cluster. This study highlights that microbial inoculants exert positive effects, which are specific even to the rhizosphere soil microbiome of chrysanthemum varieties tested. Such inoculants can serve as soil fertility enhancing options in protected floriculture.http://www.sciencedirect.com/science/article/pii/S2468014116300103microbial interactionbiofilmcyanobacteriaDGGEfloriculturesoil fertility
collection DOAJ
language English
format Article
sources DOAJ
author Radha Prasanna
Amrita Kanchan
Simranjit Kaur
Balasubramanian Ramakrishnan
Kunal Ranjan
Mam Chand Singh
Murtaza Hasan
Anil Kumar Saxena
Yashbir Singh Shivay
spellingShingle Radha Prasanna
Amrita Kanchan
Simranjit Kaur
Balasubramanian Ramakrishnan
Kunal Ranjan
Mam Chand Singh
Murtaza Hasan
Anil Kumar Saxena
Yashbir Singh Shivay
Chrysanthemum Growth Gains from Beneficial Microbial Interactions and Fertility Improvements in Soil Under Protected Cultivation
Horticultural Plant Journal
microbial interaction
biofilm
cyanobacteria
DGGE
floriculture
soil fertility
author_facet Radha Prasanna
Amrita Kanchan
Simranjit Kaur
Balasubramanian Ramakrishnan
Kunal Ranjan
Mam Chand Singh
Murtaza Hasan
Anil Kumar Saxena
Yashbir Singh Shivay
author_sort Radha Prasanna
title Chrysanthemum Growth Gains from Beneficial Microbial Interactions and Fertility Improvements in Soil Under Protected Cultivation
title_short Chrysanthemum Growth Gains from Beneficial Microbial Interactions and Fertility Improvements in Soil Under Protected Cultivation
title_full Chrysanthemum Growth Gains from Beneficial Microbial Interactions and Fertility Improvements in Soil Under Protected Cultivation
title_fullStr Chrysanthemum Growth Gains from Beneficial Microbial Interactions and Fertility Improvements in Soil Under Protected Cultivation
title_full_unstemmed Chrysanthemum Growth Gains from Beneficial Microbial Interactions and Fertility Improvements in Soil Under Protected Cultivation
title_sort chrysanthemum growth gains from beneficial microbial interactions and fertility improvements in soil under protected cultivation
publisher KeAi Communications Co., Ltd.
series Horticultural Plant Journal
issn 2468-0141
publishDate 2016-07-01
description An investigation was undertaken to analyse the influence of microbial inoculants on growth and enzyme activities elicited, and soil microbiome of two varieties of Chrysanthemum morifolium Ramat, which were grown under protected mode of cultivation. Rhizosphere soil sampling at 45 and 90 DAT (days after transplanting of cuttings) revealed up to four- to five-fold enhancement in the activity of defence-, and pathogenesis-related, and antioxidant enzymes, relative to the uninoculated control. Plant growth and soil microbial parameters, especially soil microbial biomass carbon and potential nitrification exhibited significant increases over control. Available soil nitrogen concentrations showed 40%–44% increment in inoculated treatments. Scanning electron microscopy of the root tissues revealed biofilm-like aggregates and individual short bits of cyanobacterial filaments. Analyses of DGGE profiles of archaeal and bacterial communities did not show temporal variations (between 45 and 90 DAT). However, distinct influences on the number and abundance of phylotypes due to microbial inoculants were recorded. The inoculants — Cyanobacterial consortium (BF1- 4) and Anabaena sp.–Trichoderma sp. biofilm (An-Tr) were particularly promising in terms of the plant and soil related parameters, and remained distinct in the DGGE profiles generated. The effect of Trichoderma viride–Azotobacter biofilm on soil bacterial and archaeal communities was unique and distinct as a separate cluster. This study highlights that microbial inoculants exert positive effects, which are specific even to the rhizosphere soil microbiome of chrysanthemum varieties tested. Such inoculants can serve as soil fertility enhancing options in protected floriculture.
topic microbial interaction
biofilm
cyanobacteria
DGGE
floriculture
soil fertility
url http://www.sciencedirect.com/science/article/pii/S2468014116300103
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