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Impact of integrated use of enriched compost, biochar, humic acid and Alcaligenes sp. AZ9 on maize productivity and soil biological attributes in natural field conditions

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Zeitschriftentitel: Italian Journal of Agronomy
Personen und Körperschaften: Hussain, Azhar, Ahmad, Maqshoof, Mumtaz, Muhammad Zahid, Nazli, Farheen, Farooqi, Muhammad Aslam, Khalid, Imran, Iqbal, Zafar, Arshad, Hadeeqa
In: Italian Journal of Agronomy, 14, 2019, 2, S. 101-107
Format: E-Article
Sprache: Unbestimmt
veröffentlicht:
PAGEPress Publications
Schlagwörter:
Agronomy and Crop Science
author_facet Hussain, Azhar
Ahmad, Maqshoof
Mumtaz, Muhammad Zahid
Nazli, Farheen
Farooqi, Muhammad Aslam
Khalid, Imran
Iqbal, Zafar
Arshad, Hadeeqa
Hussain, Azhar
Ahmad, Maqshoof
Mumtaz, Muhammad Zahid
Nazli, Farheen
Farooqi, Muhammad Aslam
Khalid, Imran
Iqbal, Zafar
Arshad, Hadeeqa
author Hussain, Azhar
Ahmad, Maqshoof
Mumtaz, Muhammad Zahid
Nazli, Farheen
Farooqi, Muhammad Aslam
Khalid, Imran
Iqbal, Zafar
Arshad, Hadeeqa
spellingShingle Hussain, Azhar
Ahmad, Maqshoof
Mumtaz, Muhammad Zahid
Nazli, Farheen
Farooqi, Muhammad Aslam
Khalid, Imran
Iqbal, Zafar
Arshad, Hadeeqa
Italian Journal of Agronomy
Impact of integrated use of enriched compost, biochar, humic acid and Alcaligenes sp. AZ9 on maize productivity and soil biological attributes in natural field conditions
Agronomy and Crop Science
author_sort hussain, azhar
spelling Hussain, Azhar Ahmad, Maqshoof Mumtaz, Muhammad Zahid Nazli, Farheen Farooqi, Muhammad Aslam Khalid, Imran Iqbal, Zafar Arshad, Hadeeqa 2039-6805 1125-4718 PAGEPress Publications Agronomy and Crop Science http://dx.doi.org/10.4081/ija.2019.1413 <jats:p>Organic amendments improve the soil quality and plant productivity as well as help in the establishment of introduced bacteria. The present study was conducted to evaluate the interactive impact of organic amendments and plant growth promoting rhizobacteria strain Alcaligenes sp. AZ9 to improve maize productivity and soil quality. organic amendments including rock phosphate enriched compost (RPEC), biochar, and humic acid were applied in soil along with and without Alcaligenes sp. AZ9. The results revealed that the sole application of organic amendments along with Alcaligenes sp. AZ9 showed increase in growth and grain yield of maize. However, a combined application of organic amendments (RPEC, biochar, and humic acid) along with Alcaligenes sp. AZ9 showed maximum increase in plant height up to 14%, shoot dry biomass up to 30%, 1000-grains weight up to 10%, grain yield up to 31%, stover yield up to 34%, and potassium (K) concentration in grains up to 12% as compared to absolute control. The increase in nitrogen (N) and phosphorus (P) concentration in grains was non-significant over control. This treatment also improved soil biological attributes in terms of the bacterial population up to 60%, microbial biomass carbon up to 22%, soil organic carbon up to 29%, and saturation percentage of soil up to 14% as compared to control. It can be concluded that the application of organic amendments improved establishment of introduced bacteria, which could be effective in improving maize growth and yield as well as soil health.</jats:p> Impact of integrated use of enriched compost, biochar, humic acid and Alcaligenes sp. AZ9 on maize productivity and soil biological attributes in natural field conditions Italian Journal of Agronomy
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title Impact of integrated use of enriched compost, biochar, humic acid and Alcaligenes sp. AZ9 on maize productivity and soil biological attributes in natural field conditions
title_unstemmed Impact of integrated use of enriched compost, biochar, humic acid and Alcaligenes sp. AZ9 on maize productivity and soil biological attributes in natural field conditions
title_full Impact of integrated use of enriched compost, biochar, humic acid and Alcaligenes sp. AZ9 on maize productivity and soil biological attributes in natural field conditions
title_fullStr Impact of integrated use of enriched compost, biochar, humic acid and Alcaligenes sp. AZ9 on maize productivity and soil biological attributes in natural field conditions
title_full_unstemmed Impact of integrated use of enriched compost, biochar, humic acid and Alcaligenes sp. AZ9 on maize productivity and soil biological attributes in natural field conditions
title_short Impact of integrated use of enriched compost, biochar, humic acid and Alcaligenes sp. AZ9 on maize productivity and soil biological attributes in natural field conditions
title_sort impact of integrated use of enriched compost, biochar, humic acid and alcaligenes sp. az9 on maize productivity and soil biological attributes in natural field conditions
topic Agronomy and Crop Science
url http://dx.doi.org/10.4081/ija.2019.1413
publishDate 2019
physical 101-107
description <jats:p>Organic amendments improve the soil quality and plant productivity as well as help in the establishment of introduced bacteria. The present study was conducted to evaluate the interactive impact of organic amendments and plant growth promoting rhizobacteria strain Alcaligenes sp. AZ9 to improve maize productivity and soil quality. organic amendments including rock phosphate enriched compost (RPEC), biochar, and humic acid were applied in soil along with and without Alcaligenes sp. AZ9. The results revealed that the sole application of organic amendments along with Alcaligenes sp. AZ9 showed increase in growth and grain yield of maize. However, a combined application of organic amendments (RPEC, biochar, and humic acid) along with Alcaligenes sp. AZ9 showed maximum increase in plant height up to 14%, shoot dry biomass up to 30%, 1000-grains weight up to 10%, grain yield up to 31%, stover yield up to 34%, and potassium (K) concentration in grains up to 12% as compared to absolute control. The increase in nitrogen (N) and phosphorus (P) concentration in grains was non-significant over control. This treatment also improved soil biological attributes in terms of the bacterial population up to 60%, microbial biomass carbon up to 22%, soil organic carbon up to 29%, and saturation percentage of soil up to 14% as compared to control. It can be concluded that the application of organic amendments improved establishment of introduced bacteria, which could be effective in improving maize growth and yield as well as soil health.</jats:p>
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author Hussain, Azhar, Ahmad, Maqshoof, Mumtaz, Muhammad Zahid, Nazli, Farheen, Farooqi, Muhammad Aslam, Khalid, Imran, Iqbal, Zafar, Arshad, Hadeeqa
author_facet Hussain, Azhar, Ahmad, Maqshoof, Mumtaz, Muhammad Zahid, Nazli, Farheen, Farooqi, Muhammad Aslam, Khalid, Imran, Iqbal, Zafar, Arshad, Hadeeqa, Hussain, Azhar, Ahmad, Maqshoof, Mumtaz, Muhammad Zahid, Nazli, Farheen, Farooqi, Muhammad Aslam, Khalid, Imran, Iqbal, Zafar, Arshad, Hadeeqa
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description <jats:p>Organic amendments improve the soil quality and plant productivity as well as help in the establishment of introduced bacteria. The present study was conducted to evaluate the interactive impact of organic amendments and plant growth promoting rhizobacteria strain Alcaligenes sp. AZ9 to improve maize productivity and soil quality. organic amendments including rock phosphate enriched compost (RPEC), biochar, and humic acid were applied in soil along with and without Alcaligenes sp. AZ9. The results revealed that the sole application of organic amendments along with Alcaligenes sp. AZ9 showed increase in growth and grain yield of maize. However, a combined application of organic amendments (RPEC, biochar, and humic acid) along with Alcaligenes sp. AZ9 showed maximum increase in plant height up to 14%, shoot dry biomass up to 30%, 1000-grains weight up to 10%, grain yield up to 31%, stover yield up to 34%, and potassium (K) concentration in grains up to 12% as compared to absolute control. The increase in nitrogen (N) and phosphorus (P) concentration in grains was non-significant over control. This treatment also improved soil biological attributes in terms of the bacterial population up to 60%, microbial biomass carbon up to 22%, soil organic carbon up to 29%, and saturation percentage of soil up to 14% as compared to control. It can be concluded that the application of organic amendments improved establishment of introduced bacteria, which could be effective in improving maize growth and yield as well as soil health.</jats:p>
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spelling Hussain, Azhar Ahmad, Maqshoof Mumtaz, Muhammad Zahid Nazli, Farheen Farooqi, Muhammad Aslam Khalid, Imran Iqbal, Zafar Arshad, Hadeeqa 2039-6805 1125-4718 PAGEPress Publications Agronomy and Crop Science http://dx.doi.org/10.4081/ija.2019.1413 <jats:p>Organic amendments improve the soil quality and plant productivity as well as help in the establishment of introduced bacteria. The present study was conducted to evaluate the interactive impact of organic amendments and plant growth promoting rhizobacteria strain Alcaligenes sp. AZ9 to improve maize productivity and soil quality. organic amendments including rock phosphate enriched compost (RPEC), biochar, and humic acid were applied in soil along with and without Alcaligenes sp. AZ9. The results revealed that the sole application of organic amendments along with Alcaligenes sp. AZ9 showed increase in growth and grain yield of maize. However, a combined application of organic amendments (RPEC, biochar, and humic acid) along with Alcaligenes sp. AZ9 showed maximum increase in plant height up to 14%, shoot dry biomass up to 30%, 1000-grains weight up to 10%, grain yield up to 31%, stover yield up to 34%, and potassium (K) concentration in grains up to 12% as compared to absolute control. The increase in nitrogen (N) and phosphorus (P) concentration in grains was non-significant over control. This treatment also improved soil biological attributes in terms of the bacterial population up to 60%, microbial biomass carbon up to 22%, soil organic carbon up to 29%, and saturation percentage of soil up to 14% as compared to control. It can be concluded that the application of organic amendments improved establishment of introduced bacteria, which could be effective in improving maize growth and yield as well as soil health.</jats:p> Impact of integrated use of enriched compost, biochar, humic acid and Alcaligenes sp. AZ9 on maize productivity and soil biological attributes in natural field conditions Italian Journal of Agronomy
spellingShingle Hussain, Azhar, Ahmad, Maqshoof, Mumtaz, Muhammad Zahid, Nazli, Farheen, Farooqi, Muhammad Aslam, Khalid, Imran, Iqbal, Zafar, Arshad, Hadeeqa, Italian Journal of Agronomy, Impact of integrated use of enriched compost, biochar, humic acid and Alcaligenes sp. AZ9 on maize productivity and soil biological attributes in natural field conditions, Agronomy and Crop Science
title Impact of integrated use of enriched compost, biochar, humic acid and Alcaligenes sp. AZ9 on maize productivity and soil biological attributes in natural field conditions
title_full Impact of integrated use of enriched compost, biochar, humic acid and Alcaligenes sp. AZ9 on maize productivity and soil biological attributes in natural field conditions
title_fullStr Impact of integrated use of enriched compost, biochar, humic acid and Alcaligenes sp. AZ9 on maize productivity and soil biological attributes in natural field conditions
title_full_unstemmed Impact of integrated use of enriched compost, biochar, humic acid and Alcaligenes sp. AZ9 on maize productivity and soil biological attributes in natural field conditions
title_short Impact of integrated use of enriched compost, biochar, humic acid and Alcaligenes sp. AZ9 on maize productivity and soil biological attributes in natural field conditions
title_sort impact of integrated use of enriched compost, biochar, humic acid and alcaligenes sp. az9 on maize productivity and soil biological attributes in natural field conditions
title_unstemmed Impact of integrated use of enriched compost, biochar, humic acid and Alcaligenes sp. AZ9 on maize productivity and soil biological attributes in natural field conditions
topic Agronomy and Crop Science
url http://dx.doi.org/10.4081/ija.2019.1413