Cadmium Bioremediation Potential of Bacillus sp. and Cupriavidus sp.

Cadmium Bioremediation Potential of Bacillus sp. and Cupriavidus sp.

Heavy metals are extremely toxic and their presence in the environment is a known risk factor. Out of them, cadmium is known for its fatal effects on the environment, humans and soil. Bioremediation offers an economical solution for detoxifying such metals. So, the present study aimed to isolate Bac...

Full description

Bibliographic Details
Main Authors: Sneh Lata, Tulika Mishra, Sukhminderjit Kaur
Format: Article
Language:English
Published: Journal of Pure and Applied Microbiology 2021-09-01
Series:Journal of Pure and Applied Microbiology
Subjects:
bioremediation
sem
aas
absorption
bioformulation
Online Access:https://microbiologyjournal.org/cadmium-bioremediation-potential-of-bacillus-sp-and-cupriavidus-sp/
id doaj-5a00f0f6e4ec4de0a979c94a5b25b8da
record_format Article
spelling doaj-5a00f0f6e4ec4de0a979c94a5b25b8da2021-09-25T13:17:57ZengJournal of Pure and Applied MicrobiologyJournal of Pure and Applied Microbiology0973-75102581-690X2021-09-011531665168010.22207/JPAM.15.3.63Cadmium Bioremediation Potential of Bacillus sp. and Cupriavidus sp.Sneh Latahttps://orcid.org/0000-0002-1494-9642Tulika Mishrahttps://orcid.org/0000-0001-6119-8792Sukhminderjit Kaurhttps://orcid.org/0000-0003-3071-4031Heavy metals are extremely toxic and their presence in the environment is a known risk factor. Out of them, cadmium is known for its fatal effects on the environment, humans and soil. Bioremediation offers an economical solution for detoxifying such metals. So, the present study aimed to isolate Bacillus sp. and Cupriavidus sp. from the cadmium contaminated soils and studied their cadmium bioremediation potential. Strains that have exhibited good tolerance upto 1000 ppm and 1500 ppm of cadmium concentration and good absorption to cadmium were studied by scanning electron microscopy. An increase in the size of the bacterial cells was observed. The absorption of cadmium by bacterial cells was further confirmed by atomic absorption spectroscopy and found that the sorption rate of Bacillus sp. ECd004 was 87% and of Cupriavidus sp. SCd005 was 90%. Furthermore, these strains were exposed to cadmium contaminated soil in the form of bioformulations and their role in the rate of seed germination of Vigna radiata and Cicer aertinum and impact on seedlings growth was determined. Seed germination and growth rate was found to be double in comparison to the negative control. This investigation proves their efficacy to use in highly cadmium contaminated soils making them a suitable choice for bioremediation.https://microbiologyjournal.org/cadmium-bioremediation-potential-of-bacillus-sp-and-cupriavidus-sp/bioremediationsemaasabsorptionbioformulation
collection DOAJ
language English
format Article
sources DOAJ
author Sneh Lata
Tulika Mishra
Sukhminderjit Kaur
spellingShingle Sneh Lata
Tulika Mishra
Sukhminderjit Kaur
Cadmium Bioremediation Potential of Bacillus sp. and Cupriavidus sp.
Journal of Pure and Applied Microbiology
bioremediation
sem
aas
absorption
bioformulation
author_facet Sneh Lata
Tulika Mishra
Sukhminderjit Kaur
author_sort Sneh Lata
title Cadmium Bioremediation Potential of Bacillus sp. and Cupriavidus sp.
title_short Cadmium Bioremediation Potential of Bacillus sp. and Cupriavidus sp.
title_full Cadmium Bioremediation Potential of Bacillus sp. and Cupriavidus sp.
title_fullStr Cadmium Bioremediation Potential of Bacillus sp. and Cupriavidus sp.
title_full_unstemmed Cadmium Bioremediation Potential of Bacillus sp. and Cupriavidus sp.
title_sort cadmium bioremediation potential of bacillus sp. and cupriavidus sp.
publisher Journal of Pure and Applied Microbiology
series Journal of Pure and Applied Microbiology
issn 0973-7510
2581-690X
publishDate 2021-09-01
description Heavy metals are extremely toxic and their presence in the environment is a known risk factor. Out of them, cadmium is known for its fatal effects on the environment, humans and soil. Bioremediation offers an economical solution for detoxifying such metals. So, the present study aimed to isolate Bacillus sp. and Cupriavidus sp. from the cadmium contaminated soils and studied their cadmium bioremediation potential. Strains that have exhibited good tolerance upto 1000 ppm and 1500 ppm of cadmium concentration and good absorption to cadmium were studied by scanning electron microscopy. An increase in the size of the bacterial cells was observed. The absorption of cadmium by bacterial cells was further confirmed by atomic absorption spectroscopy and found that the sorption rate of Bacillus sp. ECd004 was 87% and of Cupriavidus sp. SCd005 was 90%. Furthermore, these strains were exposed to cadmium contaminated soil in the form of bioformulations and their role in the rate of seed germination of Vigna radiata and Cicer aertinum and impact on seedlings growth was determined. Seed germination and growth rate was found to be double in comparison to the negative control. This investigation proves their efficacy to use in highly cadmium contaminated soils making them a suitable choice for bioremediation.
topic bioremediation
sem
aas
absorption
bioformulation
url https://microbiologyjournal.org/cadmium-bioremediation-potential-of-bacillus-sp-and-cupriavidus-sp/
work_keys_str_mv AT snehlata cadmiumbioremediationpotentialofbacillusspandcupriavidussp
AT tulikamishra cadmiumbioremediationpotentialofbacillusspandcupriavidussp
AT sukhminderjitkaur cadmiumbioremediationpotentialofbacillusspandcupriavidussp
_version_ 1717368712245280768

Similar Items