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Artikel ; Online: MicroRNAs modulating nutrient homeostasis: a sustainable approach for developing biofortified crops

Jamla, Monica / Joshi, Shrushti / Patil, Suraj / Tripathi, Bhumi Nath / Kumar, Vinay

Protoplasma. 2023 Jan., v. 260, no. 1 p.5-19

2023

Abstract: During their lifespan, sessile plants have to cope with bioavailability of the suboptimal nutrient concentration and have to constantly sense/evolve the connecting web of signal cascades for efficient nutrient uptake, storage, and translocation for ... ...

Abstract	During their lifespan, sessile plants have to cope with bioavailability of the suboptimal nutrient concentration and have to constantly sense/evolve the connecting web of signal cascades for efficient nutrient uptake, storage, and translocation for proper growth and metabolism. However, environmental fluctuations and escalating anthropogenic activities are making it a formidable challenge for plants. This is adding to (micro)nutrient-deficient crops and nutritional insecurity. Biofortification is emerging as a sustainable and efficacious approach which can be utilized to combat the micronutrient malnutrition. A biofortified crop has an enriched level of desired nutrients developed using conventional breeding, agronomic practices, or advanced biotechnological tools. Nutrient homeostasis gets hampered under nutrient stress, which involves disturbance in short-distance and long-distance cell–cell/cell-organ communications involving multiple cellular and molecular components. Advanced sequencing platforms coupled with bioinformatics pipelines and databases have suggested the potential roles of tiny signaling molecules and post-transcriptional regulators, the microRNAs (miRNAs) in key plant phenomena including nutrient homeostasis. miRNAs are seen as emerging targets for biotechnology-based biofortification programs. Thus, understanding the mechanistic insights and regulatory role of miRNAs could open new windows for exploring them in developing nutrient-efficient biofortified crops. This review discusses significance and roles of miRNAs in plant nutrition and nutrient homeostasis and how they play key roles in plant responses to nutrient imbalances/deficiencies/toxicities covering major nutrients—nitrogen (N), phosphorus (P), sulfur (S), magnesium (Mg), iron (Fe), and zinc (Zn). A perspective view has been given on developing miRNA-engineered biofortified crops with recent success stories. Current challenges and future strategies have also been discussed.
Schlagwörter	bioavailability ; biofortification ; biofortified crops ; bioinformatics ; homeostasis ; iron ; longevity ; magnesium ; malnutrition ; metabolism ; microRNA ; nutrient content ; nutrient uptake ; phosphorus ; plant nutrition ; sulfur ; zinc
Sprache	Englisch
Erscheinungsverlauf	2023-01
Umfang	p. 5-19.
Erscheinungsort	Springer Vienna
Dokumenttyp	Artikel ; Online
Anmerkung	Review
ZDB-ID	123809-7
ISSN	1615-6102 ; 0033-183X
ISSN (online)	1615-6102
ISSN	0033-183X
DOI	10.1007/s00709-022-01775-w
Datenquelle	NAL Katalog (AGRICOLA)

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Artikel ; Online: Exploring epitranscriptomics for crop improvement and environmental stress tolerance.

Yang, Xiangbo / Patil, Suraj / Joshi, Shrushti / Jamla, Monica / Kumar, Vinay

Plant physiology and biochemistry : PPB

2022 Band 183, Seite(n) 56–71

Abstract: Climate change and stressful environmental conditions severely hamper crop growth, development and yield. Plants respond to environmental perturbations, through their plasticity provided by key-genes, governed at post-/transcriptional levels. Gene- ... ...

Abstract	Climate change and stressful environmental conditions severely hamper crop growth, development and yield. Plants respond to environmental perturbations, through their plasticity provided by key-genes, governed at post-/transcriptional levels. Gene-regulation in plants is a multilevel process controlled by diverse cellular entities that includes transcription factors (TF), epigenetic regulators and non-coding RNAs beside others. There are successful studies confirming the role of epigenetic modifications (DNA-methylation/histone-modifications) in gene expression. Recent years have witnessed emergence of a highly specialized field the "Epitranscriptomics". Epitranscriptomics deals with investigating post-transcriptional RNA chemical-modifications present across the life forms that change structural, functional and biological characters of RNA. However, deeper insights on of epitranscriptomic modifications, with >140 types known so far, are to be understood fully. Researchers have identified epitranscriptome marks (writers, erasers and readers) and mapped the site-specific RNA modifications (m6A, m
Mesh-Begriff(e)	Crops, Agricultural/genetics ; Crops, Agricultural/metabolism ; Epigenesis, Genetic ; RNA/metabolism ; RNA Processing, Post-Transcriptional ; Transcriptome/genetics
Chemische Substanzen	RNA (63231-63-0)
Sprache	Englisch
Erscheinungsdatum	2022-05-07
Erscheinungsland	France
Dokumenttyp	Journal Article ; Review
ZDB-ID	742978-2
ISSN	1873-2690 ; 0981-9428
ISSN (online)	1873-2690
ISSN	0981-9428
DOI	10.1016/j.plaphy.2022.04.031
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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Artikel: Exploring epitranscriptomics for crop improvement and environmental stress tolerance

Yang, Xiangbo / Patil, Suraj / Joshi, Shrushti / Jamla, Monica / Kumar, Vinay

Plant physiology and biochemistry. 2022 July 15, v. 183

2022

Abstract	Climate change and stressful environmental conditions severely hamper crop growth, development and yield. Plants respond to environmental perturbations, through their plasticity provided by key-genes, governed at post-/transcriptional levels. Gene-regulation in plants is a multilevel process controlled by diverse cellular entities that includes transcription factors (TF), epigenetic regulators and non-coding RNAs beside others. There are successful studies confirming the role of epigenetic modifications (DNA-methylation/histone-modifications) in gene expression. Recent years have witnessed emergence of a highly specialized field the “Epitranscriptomics”. Epitranscriptomics deals with investigating post-transcriptional RNA chemical-modifications present across the life forms that change structural, functional and biological characters of RNA. However, deeper insights on of epitranscriptomic modifications, with >140 types known so far, are to be understood fully. Researchers have identified epitranscriptome marks (writers, erasers and readers) and mapped the site-specific RNA modifications (m6A, m⁵C, 3′ uridylation, etc.) responsible for fine-tuning gene expression in plants. Simultaneous advancement in sequencing platforms, upgraded bioinformatic tools and pipelines along with conventional labelled techniques have further given a statistical picture of these epitranscriptomic modifications leading to their potential applicability in crop improvement and developing climate-smart crops. We present herein the insights on epitranscriptomic machinery in plants and how epitranscriptome and epitranscriptomic modifications underlying plant growth, development and environmental stress responses/adaptations. Third-generation sequencing technology, advanced bioinformatics tools and databases being used in plant epitranscriptomics are also discussed. Emphasis is given on potential exploration of epitranscriptome engineering for crop-improvement and developing environmental stress tolerant plants covering current status, challenges and future directions.
Schlagwörter	bioinformatics ; climate change ; epigenetics ; gene expression ; plant growth ; plasticity ; stress tolerance
Sprache	Englisch
Erscheinungsverlauf	2022-0715
Umfang	p. 56-71.
Erscheinungsort	Elsevier Masson SAS
Dokumenttyp	Artikel
ZDB-ID	742978-2
ISSN	1873-2690 ; 0981-9428
ISSN (online)	1873-2690
ISSN	0981-9428
DOI	10.1016/j.plaphy.2022.04.031
Datenquelle	NAL Katalog (AGRICOLA)

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Artikel: MicroRNAs and Their Exploration for Developing Heavy Metal-tolerant Plants

Jamla, Monica / Patil, Suraj / Joshi, Shrushti / Khare, Tushar / Kumar, Vinay

Journal of plant growth regulation. 2022 Oct., v. 41, no. 7

2022

Abstract: Heavy metals (HMs), in particular the toxic/carcinogenic non-essential ones including cadmium (Cd), arsenic (As), aluminum (Al), mercury (Hg), and lead (Pb) are known to exert severe impacts on plant growth and yields. HM contamination and/or toxicity is ...

Abstract	Heavy metals (HMs), in particular the toxic/carcinogenic non-essential ones including cadmium (Cd), arsenic (As), aluminum (Al), mercury (Hg), and lead (Pb) are known to exert severe impacts on plant growth and yields. HM contamination and/or toxicity is seen a major threat for global food production, quality, and security. Plants use intricate molecular mechanisms for responding and adapting to HM stress, both at transcriptional and post-transcriptional levels, and microRNA (miRNA) have emerged as key post-transcriptional regulators. These tiny (19–25 nucleotide) non-coding RNA species found abundantly in plants are pivotal in tight regulation of gene expression via miRNA-directed mRNA cleavage, translational repression, chromatin remodeling, or through epigenetic modification. MiRNAs are reported to be involved in regulation of HM uptake and transport, besides their chelation and homeostasis, as well as in HM-induced oxidative stress and antioxidative defense. There are also reports of involvement of miRNAs in metallic cross- and co-tolerance. Technological advents in small RNA sequencing coupled with computational tools and databases have resulted into the identification, characterization, and validation of several HM-responsive miRNAs along with their respective target genes. Through his review, we present and discuss current understandings on miRNAs, their biosynthesis, and functions in plants, emphasizing on HM stress responses and adaptations. The main aim of this review is to discuss the possible exploration of plant miRNAs as potential targets for engineering plants (via loss-/gain-of-function approaches) to confer HM tolerance. Successful case studies, current challenges, and future directions are also discussed.
Schlagwörter	aluminum ; arsenic ; biosynthesis ; cadmium ; carcinogenicity ; chelation ; chromatin ; epigenetics ; food production ; gene expression regulation ; homeostasis ; lead ; mercury ; metal tolerance ; microRNA ; non-coding RNA ; oxidative stress ; plant growth ; transcription (genetics)
Sprache	Englisch
Erscheinungsverlauf	2022-10
Umfang	p. 2579-2595.
Erscheinungsort	Springer US
Dokumenttyp	Artikel
Anmerkung	Review
ZDB-ID	586787-3
ISSN	1435-8107 ; 0721-7595
ISSN (online)	1435-8107
ISSN	0721-7595
DOI	10.1007/s00344-021-10476-2
Datenquelle	NAL Katalog (AGRICOLA)

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Artikel ; Online: MicroRNAs modulating nutrient homeostasis: a sustainable approach for developing biofortified crops.

Jamla, Monica / Joshi, Shrushti / Patil, Suraj / Tripathi, Bhumi Nath / Kumar, Vinay

Protoplasma

2022

Abstract	During their lifespan, sessile plants have to cope with bioavailability of the suboptimal nutrient concentration and have to constantly sense/evolve the connecting web of signal cascades for efficient nutrient uptake, storage, and translocation for proper growth and metabolism. However, environmental fluctuations and escalating anthropogenic activities are making it a formidable challenge for plants. This is adding to (micro)nutrient-deficient crops and nutritional insecurity. Biofortification is emerging as a sustainable and efficacious approach which can be utilized to combat the micronutrient malnutrition. A biofortified crop has an enriched level of desired nutrients developed using conventional breeding, agronomic practices, or advanced biotechnological tools. Nutrient homeostasis gets hampered under nutrient stress, which involves disturbance in short-distance and long-distance cell-cell/cell-organ communications involving multiple cellular and molecular components. Advanced sequencing platforms coupled with bioinformatics pipelines and databases have suggested the potential roles of tiny signaling molecules and post-transcriptional regulators, the microRNAs (miRNAs) in key plant phenomena including nutrient homeostasis. miRNAs are seen as emerging targets for biotechnology-based biofortification programs. Thus, understanding the mechanistic insights and regulatory role of miRNAs could open new windows for exploring them in developing nutrient-efficient biofortified crops. This review discusses significance and roles of miRNAs in plant nutrition and nutrient homeostasis and how they play key roles in plant responses to nutrient imbalances/deficiencies/toxicities covering major nutrients-nitrogen (N), phosphorus (P), sulfur (S), magnesium (Mg), iron (Fe), and zinc (Zn). A perspective view has been given on developing miRNA-engineered biofortified crops with recent success stories. Current challenges and future strategies have also been discussed.
Sprache	Englisch
Erscheinungsdatum	2022-06-03
Erscheinungsland	Austria
Dokumenttyp	Journal Article ; Review
ZDB-ID	123809-7
ISSN	1615-6102 ; 0033-183X
ISSN (online)	1615-6102
ISSN	0033-183X
DOI	10.1007/s00709-022-01775-w
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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Artikel: Omics approaches for understanding heavy metal responses and tolerance in plants

Jamla, Monica / Khare, Tushar / Joshi, Shrushti / Patil, Suraj / Penna, Suprasanna / Kumar, Vinay

Current plant biology. 2021 Sept., v. 27

2021

Abstract: Recent years have witnessed a gradual increase in the bioavailability and groundwater leaching of toxic heavy metals (HMs) in the environment, driven mainly by anthropogenic invasions. HMs, especially ranked as toxic/carcinogenic non-essential ones ... ...

Abstract	Recent years have witnessed a gradual increase in the bioavailability and groundwater leaching of toxic heavy metals (HMs) in the environment, driven mainly by anthropogenic invasions. HMs, especially ranked as toxic/carcinogenic non-essential ones including Cadmium (Cd), Arsenic (As), Aluminium (Al), Mercury (Hg) and Lead (Pb) have emerged as the major soil, air and water contaminants affecting food production, quality and security worldwide. HMs affect plant growth and crop yield. Plants have developed intricate defense mechanisms for safeguarding themselves against the toxic effects imposed by HMs, including compartmentalization and sequestration in cell-organelles, inactivation by complex formation with the organic ligands and their exclusion using transporters, ion channels, transcription factors and signaling molecules, beside others. Omics approaches have generated significant resources and updates on the plant genome, transcriptome and metabolome plasticity against HM-induced stress stimuli. Omics technologies are pragmatic and seen as feasible approaches for characterizing the roles of genomes (genomics), coding (transcriptomics) and non-coding (miRNAomics) RNA transcripts, and metabolites (metabolomics) including metals (metallomics), which can ultimately be used for improving stress tolerance or generating resilience plant systems. This review aims to summarize the current understandings on the mechanistic insights of selected toxic (Cd, As, Al, Hg and Pb) HM-plant interactions, including their uptake, transport, toxicity and chelation/sequestration in cellular components, besides how plants respond and adapt to these stress factors. State-of-the-art in Omics approaches including genomics, transcriptomics, metabolomics, miRNAomics and metallomics for plant HM research have been presented. Present status, challenges and future prospects are also discussed.
Schlagwörter	air ; aluminum ; arsenic ; bioavailability ; cadmium ; carcinogenicity ; chelation ; crop yield ; food production ; genome ; genomics ; groundwater ; heavy metals ; ligands ; mercury ; metabolites ; metabolome ; metallomics ; plant growth ; plasticity ; soil ; stress tolerance ; transcriptome ; transcriptomics ; water pollution
Sprache	Englisch
Erscheinungsverlauf	2021-09
Erscheinungsort	Elsevier B.V.
Dokumenttyp	Artikel
ZDB-ID	2785418-8
ISSN	2214-6628
ISSN	2214-6628
DOI	10.1016/j.cpb.2021.100213
Datenquelle	NAL Katalog (AGRICOLA)

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Artikel ; Online: Transcriptomics, proteomics, and metabolomics interventions prompt crop improvement against metal(loid) toxicity.

Raza, Ali / Salehi, Hajar / Bashir, Shanza / Tabassum, Javaria / Jamla, Monica / Charagh, Sidra / Barmukh, Rutwik / Mir, Rakeeb Ahmad / Bhat, Basharat Ahmad / Javed, Muhammad Arshad / Guan, Dong-Xing / Mir, Reyazul Rouf / Siddique, Kadambot H M / Varshney, Rajeev K

Plant cell reports

2024 Band 43, Heft 3, Seite(n) 80

Abstract: The escalating challenges posed by metal(loid) toxicity in agricultural ecosystems, exacerbated by rapid climate change and anthropogenic pressures, demand urgent attention. Soil contamination is a critical issue because it significantly impacts crop ... ...

Abstract	The escalating challenges posed by metal(loid) toxicity in agricultural ecosystems, exacerbated by rapid climate change and anthropogenic pressures, demand urgent attention. Soil contamination is a critical issue because it significantly impacts crop productivity. The widespread threat of metal(loid) toxicity can jeopardize global food security due to contaminated food supplies and pose environmental risks, contributing to soil and water pollution and thus impacting the whole ecosystem. In this context, plants have evolved complex mechanisms to combat metal(loid) stress. Amid the array of innovative approaches, omics, notably transcriptomics, proteomics, and metabolomics, have emerged as transformative tools, shedding light on the genes, proteins, and key metabolites involved in metal(loid) stress responses and tolerance mechanisms. These identified candidates hold promise for developing high-yielding crops with desirable agronomic traits. Computational biology tools like bioinformatics, biological databases, and analytical pipelines support these omics approaches by harnessing diverse information and facilitating the mapping of genotype-to-phenotype relationships under stress conditions. This review explores: (1) the multifaceted strategies that plants use to adapt to metal(loid) toxicity in their environment; (2) the latest findings in metal(loid)-mediated transcriptomics, proteomics, and metabolomics studies across various plant species; (3) the integration of omics data with artificial intelligence and high-throughput phenotyping; (4) the latest bioinformatics databases, tools and pipelines for single and/or multi-omics data integration; (5) the latest insights into stress adaptations and tolerance mechanisms for future outlooks; and (6) the capacity of omics advances for creating sustainable and resilient crop plants that can thrive in metal(loid)-contaminated environments.
Mesh-Begriff(e)	Proteomics ; Ecosystem ; Artificial Intelligence ; Gene Expression Profiling ; Metals/toxicity ; Soil
Chemische Substanzen	Metals ; Soil
Sprache	Englisch
Erscheinungsdatum	2024-02-27
Erscheinungsland	Germany
Dokumenttyp	Journal Article ; Review
ZDB-ID	8397-5
ISSN	1432-203X ; 0721-085X ; 0721-7714
ISSN (online)	1432-203X
ISSN	0721-085X ; 0721-7714
DOI	10.1007/s00299-024-03153-7
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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Artikel: Impact of benzo[a]pyrene with other pollutants induce the molecular alternation in the biological system: Existence, detection, and remediation methods

Saravanakumar, Kandasamy / Sivasantosh, Sugavaneswaran / Sathiyaseelan, Anbazhagan / Sankaranarayanan, Alwarappan / Naveen, Kumar Vishven / Zhang, Xin / Jamla, Monica / Vijayasarathy, Sampathkumar / Vishnu Priya, Veeraraghavan / MubarakAli, Davoodbasha / Wang, Myeong-Hyeon

Environmental pollution. 2022 Mar. 22,

2022

Abstract: The exposure of benzo [a]pyrene (BaP) in recent times is rather unavoidable than ever before. BaP emissions are sourced majorly from anthropogenic rather than natural provenance from wildfires and volcanic eruptions. A major under-looked source is via ... ...

Abstract	The exposure of benzo [a]pyrene (BaP) in recent times is rather unavoidable than ever before. BaP emissions are sourced majorly from anthropogenic rather than natural provenance from wildfires and volcanic eruptions. A major under-looked source is via the consumption of foods that are deep-fried, grilled, and charcoal smoked foods (meats in particular). BaP being a component of poly aromatic hydrocarbons has been classified as a Group I carcinogenic agent, which has been shown to cause both systemic and localized effects in animal models as well as in humans; has been known to cause various forms of cancer, accelerate neurological disorders, invoke DNA and cellular damage due to the generation of reactive oxygen species and involve in multi-generational phenotypic and genotypic defects. BaP's short and accumulated exposure has been shown in disrupting the fertility of gamete cells. In this review, we have discussed an in-depth and capacious run-through of the various origins of BaP, its economic distribution, and its impact as well as toxicological effects on the environment and human health. It also deals with a mechanism as a single compound and its ability to synergize with other chemicals/materials, novel detection methods, and remediation approaches held in our environment.
Schlagwörter	DNA ; carcinogens ; charcoal ; fried foods ; human health ; phenotype ; pollution ; provenance ; reactive oxygen species ; remediation ; toxicology
Sprache	Englisch
Erscheinungsverlauf	2022-0322
Erscheinungsort	Elsevier Ltd
Dokumenttyp	Artikel
Anmerkung	Pre-press version
ZDB-ID	280652-6
ISSN	1873-6424 ; 0013-9327 ; 0269-7491
ISSN (online)	1873-6424
ISSN	0013-9327 ; 0269-7491
DOI	10.1016/j.envpol.2022.119207
Datenquelle	NAL Katalog (AGRICOLA)

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Artikel ; Online: MicroRNA-mediated bioengineering for climate-resilience in crops.

Patil, Suraj / Joshi, Shrushti / Jamla, Monica / Zhou, Xianrong / Taherzadeh, Mohammad J / Suprasanna, Penna / Kumar, Vinay

Bioengineered

2021 Band 12, Heft 2, Seite(n) 10430–10456

Abstract: Global projections on the climate change and the dynamic environmental perturbations indicate severe impacts on food security in general, and crop yield, vigor and the quality of produce in particular. Sessile plants respond to environmental challenges ... ...

Abstract	Global projections on the climate change and the dynamic environmental perturbations indicate severe impacts on food security in general, and crop yield, vigor and the quality of produce in particular. Sessile plants respond to environmental challenges such as salt, drought, temperature, heavy metals at transcriptional and/or post-transcriptional levels through the stress-regulated network of pathways including transcription factors, proteins and the small non-coding endogenous RNAs. Amongs these, the miRNAs have gained unprecedented attention in recent years as key regulators for modulating gene expression in plants under stress. Hence, tailoring of miRNAs and their target pathways presents a promising strategy for developing multiple stress-tolerant crops. Plant stress tolerance has been successfully achieved through the over expression of microRNAs such as Os-miR408, Hv-miR82 for drought tolerance; OsmiR535A and artificial DST miRNA for salinity tolerance; and OsmiR535 and miR156 for combined drought and salt stress. Examples of miR408 overexpression also showed improved efficiency of irradiation utilization and carbon dioxide fixation in crop plants. Through this review, we present the current understanding about plant miRNAs, their roles in plant growth and stress-responses, the modern toolbox for identification, characterization and validation of miRNAs and their target genes including
Mesh-Begriff(e)	Bioengineering ; Climate Change ; Crops, Agricultural/genetics ; Gene Editing ; Machine Learning ; MicroRNAs/genetics ; MicroRNAs/metabolism
Chemische Substanzen	MicroRNAs
Sprache	Englisch
Erscheinungsdatum	2021-10-20
Erscheinungsland	United States
Dokumenttyp	Journal Article ; Review
ZDB-ID	2737830-5
ISSN	2165-5987 ; 2165-5979
ISSN (online)	2165-5987
ISSN	2165-5979
DOI	10.1080/21655979.2021.1997244
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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Artikel: Impact of industrial effluents on the environment and human health and their remediation using MOFs-based hybrid membrane filtration techniques

Saravanakumar, Kandasamy / De Silva, Shanali / Santosh, Sugavaneswaran Siva / Sathiyaseelan, Anbazhagan / Ganeshalingam, Archchana / Jamla, Monica / Sankaranarayanan, Alwarappan / Veeraraghavan, Vishnu Priya / MubarakAli, Davoodbasha / Lee, Jooeun / Thiripuranathar, Gobika / Wang, Myeong-Hyeon

Chemosphere. 2022 Nov., v. 307

2022

Abstract: The hazardous risk posed by industrial effluent discharge into the ecosystem has raised a plethora of environmental issues, public health, and safety concerns. The effluents from industries such as tanning, leather, petrochemicals, pharmaceuticals, and ... ...

Abstract	The hazardous risk posed by industrial effluent discharge into the ecosystem has raised a plethora of environmental issues, public health, and safety concerns. The effluents from industries such as tanning, leather, petrochemicals, pharmaceuticals, and textiles are create significant stress on the aquatic ecosystem, which induces significant toxicity, involved in endocrine disruptions, and inhibits reproductive functions. Therefore, this review presented an overall abridgment of the effects of these effluents and their ability to synergize with modern pollutants such as pharmaceuticals, cosmetic chemicals, nanoparticles, and heavy metals. We further emphasize the metal organic framework (MOF) based membrane filtration approach for remediation of industrial effluents in comparison to the traditional remediation process. The MOF based-hybrid membrane filters provide higher reusability, better adsorption, and superior removal rates through the implication of nanotechnology, while the traditional remediation process offers poorer filtration rates and stability.
Schlagwörter	adsorption ; aquatic ecosystems ; coordination polymers ; drugs ; human health ; industrial effluents ; leather ; microfiltration ; organic matter ; public health ; remediation ; risk ; surface area ; toxicity
Sprache	Englisch
Erscheinungsverlauf	2022-11
Erscheinungsort	Elsevier Ltd
Dokumenttyp	Artikel
ZDB-ID	120089-6
ISSN	1879-1298 ; 0045-6535 ; 0366-7111
ISSN (online)	1879-1298
ISSN	0045-6535 ; 0366-7111
DOI	10.1016/j.chemosphere.2022.135593
Datenquelle	NAL Katalog (AGRICOLA)

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