A Machine Learning-Based Assessment of Maize Silage Dry Matter Losses by Net-Bags Buried in Farm Bunker Silos

Estimating the dry matter losses (DML) of whole-plant maize (WPM) silage is a priority for sustainable dairy and beef farming. The study aimed to assess this loss of nutrients by using net-bags (n = 36) filled with freshly chopped WPM forage and buried in bunker silos of 12 Italian dairy farms for a...

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Published in:Agriculture
Main Authors: Severino Segato, Giorgio Marchesini, Luisa Magrin, Barbara Contiero, Igino Andrighetto, Lorenzo Serva
Format: Text
Language:English
Published: Multidisciplinary Digital Publishing Institute 2022
Subjects:
maize silage
porosity
density
dry matter loss
bunker silo
machine learning
classification tree analysis
DML
Online Access:https://doi.org/10.3390/agriculture12060785
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spelling ftmdpi:oai:mdpi.com:/2077-0472/12/6/785/ 2023-08-20T04:06:09+02:00 A Machine Learning-Based Assessment of Maize Silage Dry Matter Losses by Net-Bags Buried in Farm Bunker Silos Severino Segato Giorgio Marchesini Luisa Magrin Barbara Contiero Igino Andrighetto Lorenzo Serva agris 2022-05-30 application/pdf https://doi.org/10.3390/agriculture12060785 EN eng Multidisciplinary Digital Publishing Institute Farm Animal Production https://dx.doi.org/10.3390/agriculture12060785 https://creativecommons.org/licenses/by/4.0/ Agriculture; Volume 12; Issue 6; Pages: 785 maize silage porosity density dry matter loss bunker silo machine learning classification tree analysis Text 2022 ftmdpi https://doi.org/10.3390/agriculture12060785 2023-08-01T05:13:19Z Estimating the dry matter losses (DML) of whole-plant maize (WPM) silage is a priority for sustainable dairy and beef farming. The study aimed to assess this loss of nutrients by using net-bags (n = 36) filled with freshly chopped WPM forage and buried in bunker silos of 12 Italian dairy farms for an ensiling period of 275 days on average. The proximate composition of harvested WPM was submitted to mixed and polynomial regression models and a machine learning classification tree to estimate its ability to predict the WPM silage losses. Dry matter (DM), silage density, and porosity were also assessed. The WPM harvested at over 345 (g kg−1) and a DM density of less than 180 (kg of DM m−3) was related to DML values of over 7%. According to the results of the classification tree algorithm, the WPM harvested (g kg−1 DM) at aNDF higher than 373 and water-soluble carbohydrates lower than 104 preserves for the DML of maize silage. It is likely that the combination of these chemical variables determines the optimal maturity stage of WPM at harvest, allowing a biomass density and a fermentative pattern that limits the DML, especially during the ensiling period. Text DML MDPI Open Access Publishing Agriculture 12 6 785
institution Open Polar
collection MDPI Open Access Publishing
op_collection_id ftmdpi
language English
topic maize silage
porosity
density
dry matter loss
bunker silo
machine learning
classification tree analysis
spellingShingle maize silage
porosity
density
dry matter loss
bunker silo
machine learning
classification tree analysis
Severino Segato
Giorgio Marchesini
Luisa Magrin
Barbara Contiero
Igino Andrighetto
Lorenzo Serva
A Machine Learning-Based Assessment of Maize Silage Dry Matter Losses by Net-Bags Buried in Farm Bunker Silos
topic_facet maize silage
porosity
density
dry matter loss
bunker silo
machine learning
classification tree analysis
description Estimating the dry matter losses (DML) of whole-plant maize (WPM) silage is a priority for sustainable dairy and beef farming. The study aimed to assess this loss of nutrients by using net-bags (n = 36) filled with freshly chopped WPM forage and buried in bunker silos of 12 Italian dairy farms for an ensiling period of 275 days on average. The proximate composition of harvested WPM was submitted to mixed and polynomial regression models and a machine learning classification tree to estimate its ability to predict the WPM silage losses. Dry matter (DM), silage density, and porosity were also assessed. The WPM harvested at over 345 (g kg−1) and a DM density of less than 180 (kg of DM m−3) was related to DML values of over 7%. According to the results of the classification tree algorithm, the WPM harvested (g kg−1 DM) at aNDF higher than 373 and water-soluble carbohydrates lower than 104 preserves for the DML of maize silage. It is likely that the combination of these chemical variables determines the optimal maturity stage of WPM at harvest, allowing a biomass density and a fermentative pattern that limits the DML, especially during the ensiling period.
format Text
author Severino Segato
Giorgio Marchesini
Luisa Magrin
Barbara Contiero
Igino Andrighetto
Lorenzo Serva
author_facet Severino Segato
Giorgio Marchesini
Luisa Magrin
Barbara Contiero
Igino Andrighetto
Lorenzo Serva
author_sort Severino Segato
title A Machine Learning-Based Assessment of Maize Silage Dry Matter Losses by Net-Bags Buried in Farm Bunker Silos
title_short A Machine Learning-Based Assessment of Maize Silage Dry Matter Losses by Net-Bags Buried in Farm Bunker Silos
title_full A Machine Learning-Based Assessment of Maize Silage Dry Matter Losses by Net-Bags Buried in Farm Bunker Silos
title_fullStr A Machine Learning-Based Assessment of Maize Silage Dry Matter Losses by Net-Bags Buried in Farm Bunker Silos
title_full_unstemmed A Machine Learning-Based Assessment of Maize Silage Dry Matter Losses by Net-Bags Buried in Farm Bunker Silos
title_sort machine learning-based assessment of maize silage dry matter losses by net-bags buried in farm bunker silos
publisher Multidisciplinary Digital Publishing Institute
publishDate 2022
url https://doi.org/10.3390/agriculture12060785
op_coverage agris
genre DML
genre_facet DML
op_source Agriculture; Volume 12; Issue 6; Pages: 785
op_relation Farm Animal Production
https://dx.doi.org/10.3390/agriculture12060785
op_rights https://creativecommons.org/licenses/by/4.0/
op_doi https://doi.org/10.3390/agriculture12060785
container_title Agriculture
container_volume 12
container_issue 6
container_start_page 785
_version_ 1774717075934150656

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