Exploring the synergistic effect of rose distillation waste and biostimulant beside other organic amendments onRosa damascena seedlings’ growth

Purpose: Floral waste, as a frequently overlooked resource for sustainable agriculture, can be harnessed to produce nutrient-rich soil amendments resulting in an enhancement of soil fertility and augment crop yields. This in turn can foster a circular economy, minimizing waste disposal and promoting...

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Main Authors: Soumia El Malahi, Lahcen Irahoui, Wafaa Mokhtari, Mounia Ennami, Houda Taimourya, Jamaa Zim, Abdallah Zayani, Bahija Zakeri, Khalid Dhassi, Mimoun Mokhtari, Lalla Mina Idrissi Hassani
Format: Article
Language:English
Published: OICC Press 2024-03-01
Series:International Journal of Recycling of Organic Waste in Agriculture
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Online Access:https://oiccpress.com/international-journal-of-recycling-of-organic-waste-in-agriculture/wp-content/uploads/private/IJROWA-Vol13-Issue2-pap132416.pdf?sec=$P$BFAT6YhkrIgZbRBsshccQ2HyDx17rB.&auth=eyJmaWxlIjoiMTljMGFlMTVlYjVjOWE3ZDRjMjVjNDM5YmYyZTk0Y2FhMjA4YmUxNSIsInRpbWUiOjE3MTQ0NjYyNTYsInBvc3QiOjkxNTAsImV4cGlyZXMiOi0xfQ=
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author Soumia El Malahi
Lahcen Irahoui
Wafaa Mokhtari
Mounia Ennami
Houda Taimourya
Jamaa Zim
Abdallah Zayani
Bahija Zakeri
Khalid Dhassi
Mimoun Mokhtari
Lalla Mina Idrissi Hassani
author_facet Soumia El Malahi
Lahcen Irahoui
Wafaa Mokhtari
Mounia Ennami
Houda Taimourya
Jamaa Zim
Abdallah Zayani
Bahija Zakeri
Khalid Dhassi
Mimoun Mokhtari
Lalla Mina Idrissi Hassani
author_sort Soumia El Malahi
collection DOAJ
description Purpose: Floral waste, as a frequently overlooked resource for sustainable agriculture, can be harnessed to produce nutrient-rich soil amendments resulting in an enhancement of soil fertility and augment crop yields. This in turn can foster a circular economy, minimizing waste disposal and promoting a green economy. This study was aimed to explore the potential of rose distillation waste and other organic amendments as sustainable alternatives to traditional synthetic chemicals, particularly in the context of rose production. Method: The data was collected experimentally in a controlled greenhouse condition.  A complete randomized block design with three replicates was applied to conduct the experimental units. The study investigated the combined effects of three organic amendments: goat manure rose distillation waste, and compost, as well as a bio-stimulant containing both Mycorrhizae and Plant Growth Promoting Rhizobacteria. Several parameters, including growth traits and leaves nutrient content, were assessed. Results: Rose distillation waste proved to be a promising organic amendment with a significant positive effect on the growth and development of seedlings. Rose distillation waste substrate showed a remarkable increase in terms of leaf area and a maximum apical internode growth of 1.5 mm. The incorporation of bio-stimulant in the rose distillation waste substrate resulted in significant stem height growth of 11.3 cm and a high bud break rate of 73.3%. Conclusion: The findings of the study offer valuable insights into the sustainable management of rose production. The use of rose distillation waste as an organic amendment not only enhances plant growth but also positively impacts nutrient content in leaves. This highlights the potential of rose distillation waste as a sustainable and easily available resource for use in organic agriculture. Highlights Rose distillation waste is reutilized as a sustainable soil amendment, enhancing soil fertility and bolstering crop yields, contributing to a more eco-friendly and circular economy. Both rose distillation waste and organic amendments are proven to be effective alternatives to synthetic chemicals in the cultivation of roses. Experiments conducted in greenhouses demonstrate significant growth advantages when combining rose distillation waste with a biostimulant rich in Mycorrhizae and Plant Growth Promoting Rhizobacteria. This study underscores the significance of employing rose distillation waste in cost-effective, sustainable, and easily accessible organic agricultural practices for rose production
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spelling doaj-art-845112462bbe4a2fa05d127ff52c39782025-02-03T09:51:52ZengOICC PressInternational Journal of Recycling of Organic Waste in Agriculture2195-32282251-77152024-03-0113211210.57647/j.ijrowa.2024.1302.162520Exploring the synergistic effect of rose distillation waste and biostimulant beside other organic amendments onRosa damascena seedlings’ growthSoumia El Malahi0https://orcid.org/0000-0002-8636-5742Lahcen Irahouihttps://orcid.org/0000-0000-0000-0000Wafaa Mokhtarihttps://orcid.org/0000-0000-0000-0000Mounia Ennamihttps://orcid.org/0000-0000-0000-0000Houda Taimouryahttps://orcid.org/0000-0000-0000-0000Jamaa Zimhttps://orcid.org/0000-0000-0000-0000Abdallah Zayani1https://orcid.org/0000-0000-0000-0000Bahija Zakerihttps://orcid.org/0000-0000-0000-0000Khalid Dhassihttps://orcid.org/0000-0000-0000-0000Mimoun Mokhtarihttps://orcid.org/0000-0000-0000-0000Lalla Mina Idrissi Hassani2https://orcid.org/0000-0000-0000-0000Laboratory of Materials & Environment (LME). Ibn Zohr UniversityUniversity Cadi AyyadIBN ZOHR UniversityPurpose: Floral waste, as a frequently overlooked resource for sustainable agriculture, can be harnessed to produce nutrient-rich soil amendments resulting in an enhancement of soil fertility and augment crop yields. This in turn can foster a circular economy, minimizing waste disposal and promoting a green economy. This study was aimed to explore the potential of rose distillation waste and other organic amendments as sustainable alternatives to traditional synthetic chemicals, particularly in the context of rose production. Method: The data was collected experimentally in a controlled greenhouse condition.  A complete randomized block design with three replicates was applied to conduct the experimental units. The study investigated the combined effects of three organic amendments: goat manure rose distillation waste, and compost, as well as a bio-stimulant containing both Mycorrhizae and Plant Growth Promoting Rhizobacteria. Several parameters, including growth traits and leaves nutrient content, were assessed. Results: Rose distillation waste proved to be a promising organic amendment with a significant positive effect on the growth and development of seedlings. Rose distillation waste substrate showed a remarkable increase in terms of leaf area and a maximum apical internode growth of 1.5 mm. The incorporation of bio-stimulant in the rose distillation waste substrate resulted in significant stem height growth of 11.3 cm and a high bud break rate of 73.3%. Conclusion: The findings of the study offer valuable insights into the sustainable management of rose production. The use of rose distillation waste as an organic amendment not only enhances plant growth but also positively impacts nutrient content in leaves. This highlights the potential of rose distillation waste as a sustainable and easily available resource for use in organic agriculture. Highlights Rose distillation waste is reutilized as a sustainable soil amendment, enhancing soil fertility and bolstering crop yields, contributing to a more eco-friendly and circular economy. Both rose distillation waste and organic amendments are proven to be effective alternatives to synthetic chemicals in the cultivation of roses. Experiments conducted in greenhouses demonstrate significant growth advantages when combining rose distillation waste with a biostimulant rich in Mycorrhizae and Plant Growth Promoting Rhizobacteria. This study underscores the significance of employing rose distillation waste in cost-effective, sustainable, and easily accessible organic agricultural practices for rose productionhttps://oiccpress.com/international-journal-of-recycling-of-organic-waste-in-agriculture/wp-content/uploads/private/IJROWA-Vol13-Issue2-pap132416.pdf?sec=$P$BFAT6YhkrIgZbRBsshccQ2HyDx17rB.&auth=eyJmaWxlIjoiMTljMGFlMTVlYjVjOWE3ZDRjMjVjNDM5YmYyZTk0Y2FhMjA4YmUxNSIsInRpbWUiOjE3MTQ0NjYyNTYsInBvc3QiOjkxNTAsImV4cGlyZXMiOi0xfQ=biostimulantorganic amendmentrosa damascena millrose distillation wastesustainable agriculture
spellingShingle Soumia El Malahi
Lahcen Irahoui
Wafaa Mokhtari
Mounia Ennami
Houda Taimourya
Jamaa Zim
Abdallah Zayani
Bahija Zakeri
Khalid Dhassi
Mimoun Mokhtari
Lalla Mina Idrissi Hassani
Exploring the synergistic effect of rose distillation waste and biostimulant beside other organic amendments onRosa damascena seedlings’ growth
International Journal of Recycling of Organic Waste in Agriculture
biostimulant
organic amendment
rosa damascena mill
rose distillation waste
sustainable agriculture
title Exploring the synergistic effect of rose distillation waste and biostimulant beside other organic amendments onRosa damascena seedlings’ growth
title_full Exploring the synergistic effect of rose distillation waste and biostimulant beside other organic amendments onRosa damascena seedlings’ growth
title_fullStr Exploring the synergistic effect of rose distillation waste and biostimulant beside other organic amendments onRosa damascena seedlings’ growth
title_full_unstemmed Exploring the synergistic effect of rose distillation waste and biostimulant beside other organic amendments onRosa damascena seedlings’ growth
title_short Exploring the synergistic effect of rose distillation waste and biostimulant beside other organic amendments onRosa damascena seedlings’ growth
title_sort exploring the synergistic effect of rose distillation waste and biostimulant beside other organic amendments onrosa damascena seedlings growth
topic biostimulant
organic amendment
rosa damascena mill
rose distillation waste
sustainable agriculture
url https://oiccpress.com/international-journal-of-recycling-of-organic-waste-in-agriculture/wp-content/uploads/private/IJROWA-Vol13-Issue2-pap132416.pdf?sec=$P$BFAT6YhkrIgZbRBsshccQ2HyDx17rB.&auth=eyJmaWxlIjoiMTljMGFlMTVlYjVjOWE3ZDRjMjVjNDM5YmYyZTk0Y2FhMjA4YmUxNSIsInRpbWUiOjE3MTQ0NjYyNTYsInBvc3QiOjkxNTAsImV4cGlyZXMiOi0xfQ=
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