sciencedirect

https://www.sciencedirect.com/topics/agricultural-and-biological-sciences/bioremediation

[1] Bioremediation - an overview | ScienceDirect Topics — Bioremediation is a process used to treat contaminated water, soil, and subsurface material by stimulating microbial growth to degrade the target pollutants. Bioremediation is regarded as an ecofriendly and inexpensive process. However, efficient microbial remediation of heavy metals resulted in trapping of the metals within the cells using

sciencedirect

https://www.sciencedirect.com/topics/earth-and-planetary-sciences/bioremediation

[3] Bioremediation - an overview | ScienceDirect Topics — Bioremediation is defined as an environmentally friendly process for the removal of harmful pollutants from soil, water, and air using microbes (Alexander and Loehr, 1992). ... 11.3.1. Bioremediation techniques: an overview. Bioremediation alludes to any procedure used to dispose of unwanted impacts of contaminations from climate. It is 11.3.1. Bioremediation techniques: an overview. Bioremediation alludes to any procedure used to dispose of unwanted impacts of contaminations from climate. It is

degruyter

https://www.degruyter.com/document/doi/10.1351/pac200173071163/html

[4] Bioremediation. An overview - De Gruyter — A brief outline of the development of bioremediation technologies is presented. The major features and limitations are discussed, and an overview of the current state of the art in field applications is sketched.

springer

https://link.springer.com/chapter/10.1007/978-3-031-66293-5_10

[7] Soil Remediation: Biological Approaches, Regulatory Frameworks, and ... — In the current scenario of environmental upheaval, integrating bioremediation practices into the circular economy framework can help optimize resource use, minimize environmental impacts, and create more resilient and sustainable systems for managing contaminated sites and preserving environmental quality (Tiwari et al. 2023). By leveraging the

sciencedirect

https://www.sciencedirect.com/science/article/pii/S0301479724039562

[14] Comprehensive approaches to heavy metal bioremediation: Integrating ... — Moreover, robust policy frameworks and proactive public engagement are crucial to ensuring the responsible implementation of bioremediation strategies. The future of HMs cleanup hinges on a balanced integration of scientific advancements, regulatory oversight, and community involvement to achieve large-scale, sustainable environmental remediation.

prospluscons

https://prospluscons.com/pros-and-cons-of-bioremediation/

[16] 21 Pros And Cons Of Bioremediation — Enhances Public Perception Bioremediation reflects a commitment to environmentally responsible practices, which can significantly enhance public perception of organizations or projects that implement it.

peakermap

https://www.peakermap.com/blogs/news/public-viewpoints-on-bioremediation-acceptance-impact

[17] Public Viewpoints on Bioremediation: Acceptance & Impact — Highlighting successful projects, like cleaning up oil spills with bacteria or treating wastewater using plant-based systems, can showcase its effectiveness and inspire confidence. The Role of Policy and Regulation: Strong policies and regulations are essential for ensuring the safe and responsible implementation of bioremediation.

everflowglobal

https://everflowglobal.com/case-studies-successful-wastewater-treatment-through-bioremediation/

[26] Case Studies: Successful Wastewater Treatment through Bioremediation ... — These case studies exemplify the success and potential of bioremediation as a sustainable and effective approach to wastewater treatment. From remediating PCB-contaminated rivers to cleaning up oil spills and addressing mining wastewater challenges, bioremediation has proven its worth in diverse real-world scenarios.

aelenv

https://aelenv.com/2024/03/13/bioremediation-case-study/

[28] Bioremediation Case Study - AEL Environment — Bioremediation Case Study. Project Location: Ontario, Canada ... Since the bioremediation was successful the soil was able to be re-used at the Site. By using bioremediation instead of off-site disposal, AEL reduced the cost of the remediation by more than 50%, saving the client close to $200,000.

deltaremediation

https://www.deltaremediation.com/posts/5-inspiring-real-world-bioremediation-success-stories

[29] Delta Remediation — Delta Remediation From oil spill cleanups to wastewater treatment, landfill remediation, and heavy metal cleanup, explore how microorganisms, fungi, and plants work together to create sustainable solutions. Case Study: Exxon Valdez Oil Spill (1989) In the Exxon Valdez oil spill, bioremediation techniques introduced oil-degrading bacteria for a responsible and sustainable cleanup, showcasing an eco-friendly approach to industrial accidents. Contact Delta Remediation Delta Remediation is at the forefront, offering rapid bioremediation techniques. Join us in our mission for a cleaner, healthier environment with Delta Remediation’s innovative bioremediation solutions. Delta Remediation Delta Remediation, an Alberta leader in bioremediation, uses natural bacteria to degrade hydrocarbons, turning contaminants into water and CO2. © 2023 Delta Remediation - Premier In-Situ & Ex-Situ Bioremediation Providers.

oup

https://academic.oup.com/bioscience/article/55/3/273/249729

[40] Thirty Years and Counting: Bioremediation in Its Prime? — Extract. Bioremediation in its formal sense, meaning any use of living organisms to degrade wastes, has been practiced since humans first populated the world and had to dispose of their trash. Without knowing about the microorganisms in soil and water, people relied on them to destroy waste products from human domestic, agricultural, and industrial activities by converting them to carbon

study

https://study.com/academy/lesson/history-of-bioremediation.html

[41] History of Bioremediation - Study.com — The history of bioremediation goes back to the 1940s. Back then, scientists understood that petroleum hydrocarbons could be degraded (broken down) by various microbes.

wixsite

https://andrewtlex.wixsite.com/bioremediation/history

[42] HISTORY - bioremediation — The history of bioremediation in response to the Exxon Valdez oil spill can be divided into three development periods: the "Courtship" period until 1989, the "Honeymoon" period from 1989 until 1991, and the "Establishment" period since 1992. (3.3)

epa

https://www.epa.gov/archive/epa/aboutepa/bioremediation-exxon-valdez-oil-spill.html

[43] Bioremediation of Exxon Valdez Oil Spill | About EPA | US EPA — EPA informed Exxon on July 26 that it would support a proposal by the company to use bioremediation to aid in cleaning up the oil spilled from the Exxon Valdez in Prince William Sound. In a letter to Exxon, EPA provided information that would support the use of bioremediation as a cleanup technique for the Valdez oil spill.

acs

https://pubs.acs.org/doi/10.1021/es2013227

[44] Oil Biodegradation and Bioremediation: A Tale of the Two Worst Spills ... — The devastating environmental impacts of the Exxon Valdez spill in 1989 and its media notoriety made it a frequent comparison to the BP Deepwater Horizon spill in the popular press in 2010, even though the nature of the two spills and the environments impacted were vastly different. Fortunately, unlike higher organisms that are adversely impacted by oil spills, microorganisms are able to

nih

https://pmc.ncbi.nlm.nih.gov/articles/PMC3815841/

[45] Bioremediation of marine oil spills: when and when not - the Exxon ... — Summary. In this article we consider what we have learned from the Exxon Valdez oil spill (EVOS) in terms of when bioremediation should be considered and what it can accomplish. We present data on the state of oiling of Prince William Sound shorelines 18 years after the spill, including the concentration and composition of subsurface oil residues (SSOR) sampled by systematic shoreline surveys

noaa

https://darrp.noaa.gov/oil-spills/exxon-valdez

[46] Exxon Valdez | Oil Spills | Damage Assessment, Remediation, and ... — Ultimately, the Exxon Valdez spill resulted in a close examination of the status of oil spill prevention, response, and cleanup in the United States. One result was the passage of the Oil Pollution Act of 1990, which led to the establishment of NOAA's DARRP program. Learn more about the Exxon Valdez spill assessment and restoration activities.

researchgate

https://www.researchgate.net/publication/355937818_Toward_an_ecology_of_disasters_a_primer_for_the_pursuit_of_ecological_research_on_disasters

[64] Toward an ecology of disasters: a primer for the pursuit of ecological ... — We first examine how ecologists have engaged in the disaster cycle, focusing on trends in training and education, research funding, and the prevalence of community engagement in ecological research.

sciencedirect

https://www.sciencedirect.com/science/article/pii/S2949750724000622

[65] A comprehensive review of sustainable bioremediation techniques: Eco ... — Recent advancements in the field have underscored the effectiveness of bioremediation in mitigating the impacts of anthropogenic pollutants resulting from industrial and agricultural processes (Raajasubramanian et al., 2015).Compared to traditional chemical and physical remediation methods, bioremediation is more eco-friendly, easier to implement, and less invasive.

royalsocietypublishing

https://royalsocietypublishing.org/doi/10.1098/rspb.2017.2577

[66] Restoration and repair of Earth's damaged ecosystems — 1. Introduction. The pace of ecosystem destruction from anthropogenic and natural impacts is rapid, with billions of US dollars spent annually to restore damaged ecosystems .As most of the Earth is impacted either directly or indirectly by people [], restoration has emerged as one of the most important tools to stem the biodiversity crisis and repair damaged ecosystems [].

epa

https://www.epa.gov/history/milestones-epa-and-environmental-history

[67] Milestones in EPA and Environmental History — Milestones in EPA and Environmental History | US EPA About EPA About EPA Milestones in EPA and Environmental History Milestones in U.S. EPA and Environmental History The fire helped spur an avalanche of water pollution control activities such as the Clean Water Act and the Great Lakes Water Quality Agreement. Milestones in U.S. EPA and Environmental History EPA Takes National Action on Air Quality EPA Defines Air Pollution Danger Levels EPA Bans DDT EPA Sets New National Air Pollution Standard for Lead Launch of EPA Radon Program EPA Strengthens National Air Quality Standards EPA Proposes First Carbon Pollution Standard for New Power Plants EPA Updates Air Pollution Standards for Oil and Natural Gas EPA Strengthens Air Standards for Fine Particles, Reducing Harmful Soot Pollution EPA's Administrators

a-otc

https://a-otc.com/types-of-bioremediation/

[76] 12 Types Of Bioremediation - Applications And Benefits — Intrinsic and Extrinsic Bioremediation: An Overview. Understanding the types of bioremediation necessitates a grasp of its two overarching categories—intrinsic (natural) and extrinsic (enhanced) bioremediation. Intrinsic bioremediation capitalizes on the inherent ability of native organisms to mitigate pollution, functioning without human

biotechsonline

https://www.biotechsonline.com/understanding-the-different-types-of-bioremediation/

[77] Understanding the Different Types of Bioremediation — Types of Bioremediation: A Detailed Overview. Classic bioremediation technologies have been an integral component in combating environmental hazards such as soil contamination and oil spills in our oceans. Let us examine the three primary types of bioremediation that have been a core of environmental restorations:

biologynotesonline

https://biologynotesonline.com/bioremediation/

[79] Bioremediation - Definition, Types, Application - Biologynotesonline.com — Bioremediation is a process used to clean up and detoxify polluted sites by utilizing microorganisms, plants, or their enzymes to break down and degrade environmental contaminants. Bioremediation offers a sustainable and environmentally friendly approach to address pollution issues, as it relies on natural biological processes to remediate contaminated sites. Bioremediation is the use of microorganisms, plants, or their enzymes to clean up and detoxify polluted environments by breaking down and degrading contaminants. A slurry bioreactor is a vessel and apparatus used to create a three-phase (solid, liquid, gas) mixing condition to increase the rate of bioremediation of soil-bound and water-soluble pollutants as a water slurry of contaminated soil and biomass (typically indigenous microorganisms) capable of degrading target contaminants.

nih

https://pmc.ncbi.nlm.nih.gov/articles/PMC9911669/

[80] Phytoremediation technologies and their mechanism for removal of heavy ... — Plants associated with the process of phytoremediation. The selection criteria for the plants used in phytoremediation are that they should be highly metal tolerant and have a short life cycle, broad distribution, large biomass, and a translocation factor (TF) greater than 1 (Mazumdar and Das, 2015). Some plant species are more suitable for

wiley

https://onlinelibrary.wiley.com/doi/10.1155/2021/9823362

[87] Factors Influencing the Bacterial Bioremediation of Hydrocarbon ... — 7.2.6. Effect of Temperature. The temperature has a significant effect on the rate of bacterial growth, the activity of the enzymes, the chemistry of the pollutants, physiology, and diversity of the bacterial community responsible for degradation processes . Thus, temperature is considered an important factor in biological remediation

nih

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4301987/

[88] Effectiveness of biostimulation through nutrient content on the ... — Among the eleven, eight factors had the positive effect on phenanthrene removal which confirms the biostimulation of phenanthrene biodegradation by nutrient addition, but Braddock et al. (1997) in their research for bioremediation of hydrocarbon-contaminated arctic soils showed the most biostimulation in the less concentration of nutrients .

sciencedirect

https://www.sciencedirect.com/science/article/pii/S0013935124003086

[101] Innovative remediation strategies for persistent organic pollutants in ... — Innovative remediation techniques that may successfully remove POPs from soil and water are crucial for safeguarding human health and the environment from these contaminants (Camacho-Jiménez et al., 2023).The objective is to provide a thorough review of cutting-edge POPs in soil and water remediation techniques. The article is broken down into

acs

https://pubs.acs.org/doi/10.1021/bk-2024-1476.ch001

[103] Recent Strategies for Natural Bioremediation of Emerging Pollutants ... — Green bioremediation is an innovative and rapidly expanding technique that holds great promise for tackling the issue of toxic waste in polluted environments. Our planet is burdened with a wide array of contaminants, ranging from heavy metals and polychlorinated biphenyls to plastics and agrochemicals. These pollutants persist in the environment due to their resistance to biodegradation

sciencedirect

https://www.sciencedirect.com/science/article/pii/S004565352400016X

[104] Fungal bioremediation approaches for the removal of toxic pollutants ... — Mycoremediation is a biological remediation method that eliminates or breaks down pollutants and toxins from soil, water, and even the air by using specific fungi, especially mushrooms. This method falls under the category of bioremediation, which refers to the use of organisms to eliminate or reduce pollutants (Khatua et al., 2023). Later

wikipedia

https://en.wikipedia.org/wiki/Bioremediation

[116] Bioremediation - Wikipedia — Bioremediation broadly refers to any process wherein a biological system (typically bacteria, microalgae, fungi in mycoremediation, and plants in phytoremediation), living or dead, is employed for removing environmental pollutants from air, water, soil, flue gasses, industrial effluents etc., in natural or artificial settings. The natural ability of organisms to adsorb, accumulate, and degrade common and emerging pollutants has attracted the use of biological resources in treatment of contaminated environment. In comparison to conventional physicochemical treatment methods bioremediation may offer advantages as it aims to be sustainable, eco-friendly, cheap, and scalable.

microbeonline

https://microbeonline.com/bioremediation-types-advantages-and-risks/

[117] Bioremediation: Types, Advantages, and Risks • Microbe Online — The delivery mechanisms commonly used are: Good vertical recirculation. Horizontal good recirculation. ... So, based on these factors there are seven different types of bioremediation; in situ bioremediation, phytoremediation, mycoremediation, ex situ bioremediation, biosimulation, and bioaugumentation.

microbenotes

https://microbenotes.com/bioremediation/

[118] Introduction to Bioremediation - Microbe Notes — Phytoremediation is a bioremediation process that uses various types of plants to remove, transfer, stabilize, and/or destroy contaminants in the soil and groundwater. There are several different types of phytoremediation mechanisms. Rhizosphere biodegradation.

a-otc

https://a-otc.com/types-of-bioremediation/

[119] 12 Types Of Bioremediation - Applications And Benefits — Bioremediation is a cost-effective, eco-friendly solution for environmental restoration, reducing financial burdens often associated with traditional remediation methods. For instance, adding specific nutrients to boost microbial activity or introducing pollutant-degrading microorganisms to the contaminated site falls under extrinsic bioremediation. Bioventing, a subset of extrinsic bioremediation, utilizes aeration to energize microbial activities in unsaturated soil, accelerating the degradation of pollutants, notably petroleum hydrocarbon contaminants. Moreover, biostimulation can be synergized with other remediation strategies like bioaugmentation or bioventing when dealing with complex contamination scenarios, enhancing its effectiveness and providing a more holistic solution to environmental pollution. At AOTC, we harness the power of these bioremediation techniques to offer tailored, effective, and eco-friendly environmental remediation services.

nih

https://pmc.ncbi.nlm.nih.gov/articles/PMC10067648/

[120] Combining phytoremediation with bioenergy production: developing a ... — The process of selecting plant species must consider all the underlying suitability criteria for the plant species and determine the most suitable fit. A multi-criteria decision analysis (MCDA) tool may satisfy this requirement. It provides a platform to evaluate all the complex suitability criteria for different plant species in a

sciencedirect

https://www.sciencedirect.com/science/article/pii/S2666765722000394

[121] Phytoremediation: Mechanisms, plant selection and enhancement by ... — The extraction potential of plant species is mainly determined by plant biomass and the concentration of HMs in aboveground plant tissues (Li et al., 2010). Therefore, a best suited phytoremediation species not only need to tolerate and effectively absorb HMs but also be fast-growing with high biomass production and provide economic benefits

ebrary

https://ebrary.net/192630/environment/factors_bioremediation

[122] Factors affecting bioremediation, Role of plant roots and associated ... — Factors affecting bioremediation Various factors affect bioremediation, such as contaminant concentration, availability of the microbes, and environmental factors such as temperature, pH, the presence of oxygen or other electron acceptors, soil type, and nutrients status (Vidali et al. 2001, Parsons Corporation 2004, ICSCS 2006).

researchgate

https://www.researchgate.net/publication/263847362_Effect_of_Initial_pH_on_the_Bioremediation_of_Crude_Oil_Polluted_Water_Using_a_Consortium_of_Microbes

[127] Effect of Initial pH on the Bioremediation of Crude Oil Polluted Water ... — The optimal pH value for the bioremediation process is at pH 6, but microbes will die at pH range of 8 to 10 . Dissolved oxygen at the two research stations are 7.55 mg/l and 9.7 mg/l

semanticscholar

https://www.semanticscholar.org/paper/The-Effect-of-Soil-pH-on-Bioremediation-of-Aromatic-Pawar/5c65f835da2fba1bfc6048c5323d9dcac309a751

[128] The Effect of Soil pH on Bioremediation of Polycyclic Aromatic ... — Environmental fate of polycyclic aromatic hydrocarbons (PAHs) is a significant issue raising interest in bioremediation. Soil microorganism plays a vital role in degradation of PAHs and uses various metabolic pathways for degradation process. The effect of soil pH on degradation of PAH with a view to manipulating soil pH to enhance the bioremediation of PAH's was studied. The degradation

wiley

https://onlinelibrary.wiley.com/doi/10.1155/2019/5794869

[130] The Role of Soil pH in Plant Nutrition and Soil Remediation — In the natural environment, soil pH has an enormous influence on soil biogeochemical processes. Soil pH is, therefore, described as the "master soil variable" that influences myriads of soil biological, chemical, and physical properties and processes that affect plant growth and biomass yield. This paper discusses how soil pH affects processes that are interlinked with the biological

researchgate

https://www.researchgate.net/publication/378889336_Exploring_the_Role_of_Plants_in_Bio-remediation_Harnessing_Nature's_Clean-up_Agents

[134] (PDF) Exploring the Role of Plants in Bio-remediation: Harnessing ... — This research delves into the diverse mechanisms by which plants contribute to bioremediation, including phytoremediation, rhizofiltration, and phytoextraction.

sciencedirect

https://www.sciencedirect.com/science/article/pii/S2666765722000394

[135] Phytoremediation: Mechanisms, plant selection and enhancement by ... — This review article summarizes existing information and synthesizes the recent findings on plant species suitable for use in phytoremediation through utilizing different mechanisms, aids that can enhance the efficiency of phytoremediation processes, and strengths and limitations that comes with the application of this technique.

nih

https://pubmed.ncbi.nlm.nih.gov/32708065/

[136] Phytoremediation of Cadmium: Physiological, Biochemical, and Molecular ... — Plants' development via genetic engineering tools, like enhanced metal uptake, metal transport, Cd accumulation, and the overall Cd tolerance, unlocks new directions for phytoremediation. In this review, we outline the physiological, biochemical, and molecular mechanisms involved in Cd phytoremediation.

frontiersin

https://www.frontiersin.org/journals/plant-science/articles/10.3389/fpls.2016.00918/full

[137] Biochemical and Molecular Mechanisms of Plant-Microbe-Metal ... — This review presents the recent advances and applications made hitherto in understanding the biochemical and molecular mechanisms of plant-microbe interactions and their role in the major processes involved in phytoremediation, such as heavy metal detoxification, mobilization, immobilization, transformation, transport, and distribution.

sciencedirect

https://www.sciencedirect.com/science/article/pii/S0734975023001465

[141] Synthetic biology tools for environmental protection — Computational methods running in conjunction with synthetic biology approaches have found different applications in bioremediation studies. Manipulation of biodegradative pathways has been introduced as one of the most promising ways to improve the ability of microbes to decontaminate wastes at large scales (Sanghvi et al., 2020).

sciencedirect

https://www.sciencedirect.com/science/article/pii/S1367593120301009

[143] How synthetic biology can help bioremediation - ScienceDirect — Biology offers enormous potential as a tool to develop microbial and plant-based solutions to remediate and restore our environment. Advances in synthetic biology are unlocking this potential enabling the design of tailor-made organisms for bioremediation.

sciencedirect

https://www.sciencedirect.com/science/article/pii/S2949750724000622

[159] A comprehensive review of sustainable bioremediation techniques: Eco ... — Bioremediation, an advanced and environmentally sustainable technology, utilizes biological microorganisms to mitigate pollution. This review combines insights from two perspectives: one focusing on the mechanisms, applications, and types of bioremediation, and the other examining the transformative potential of integrating Internet of Things (IoT), Artificial Intelligence (AI), and biosensors

deltaremediation

https://www.deltaremediation.com/posts/5-inspiring-real-world-bioremediation-success-stories

[168] Delta Remediation — Delta Remediation From oil spill cleanups to wastewater treatment, landfill remediation, and heavy metal cleanup, explore how microorganisms, fungi, and plants work together to create sustainable solutions. Case Study: Exxon Valdez Oil Spill (1989) In the Exxon Valdez oil spill, bioremediation techniques introduced oil-degrading bacteria for a responsible and sustainable cleanup, showcasing an eco-friendly approach to industrial accidents. Contact Delta Remediation Delta Remediation is at the forefront, offering rapid bioremediation techniques. Join us in our mission for a cleaner, healthier environment with Delta Remediation’s innovative bioremediation solutions. Delta Remediation Delta Remediation, an Alberta leader in bioremediation, uses natural bacteria to degrade hydrocarbons, turning contaminants into water and CO2. © 2023 Delta Remediation - Premier In-Situ & Ex-Situ Bioremediation Providers.

sciencedirect

https://www.sciencedirect.com/science/article/pii/S2949750724000622

[170] A comprehensive review of sustainable bioremediation techniques: Eco ... — This leads to a better understanding of contamination sources and more effective remediation strategies. AI models can predict the outcomes of different bioremediation approaches, helping to select the most efficient and cost-effective methods by considering variables like pollutant type, environmental conditions, and microbial activity.

nih

https://pmc.ncbi.nlm.nih.gov/articles/PMC3168789/

[171] Role of Microbial Enzymes in the Bioremediation of Pollutants: A Review ... — Bioremediation is a microorganism mediated transformation or degradation of contaminants into nonhazardous or less-hazardous substances. The employability of various organisms like bacteria, fungi, algae, and plants for efficient bioremediation of pollutants has been reported . The involvement of plants in the bioremediation of pollutants

sciencedirect

https://www.sciencedirect.com/science/article/pii/B9780128190258000107

[172] 10 - The role of microorganism in bioremediation for sustainable ... — The role of microorganism in bioremediation for sustainable environment management - ScienceDirect Skip to main contentSkip to article Journals & Books Help Search My account Sign in Access through your organization Purchase PDF Search ScienceDirect Article preview Abstract Cited by (25) Bioremediation of Pollutants From Genetic Engineering to Genome Engineering 2020, Pages 227-249 10 - The role of microorganism in bioremediation for sustainable environment management Author links open overlay panelArun Kumar Pal 1 †, Jyotsna Singh 1 †, Ramendra Soni 1 †, Pooja Tripathi 2, Madhu Kamle 3, Vijay Tripathi 1, Pradeep Kumar 3 Show more Outline Add to Mendeley Share Cite https://doi.org/10.1016/B978-0-12-819025-8.00010-7Get rights and content Abstract Bioremediation is a biological mechanism, used by microorganisms for the degradation of pollutants. Bioremediation is highly involved in degradation, eradication, immobilization, or detoxification of diverse chemical wastes and physical hazardous materials from the environment through the all-inclusive and action of microorganisms. The main principle is degrading and transforming pollutants such as hydrocarbons, oil, heavy metal, pesticides, dyes, etc., which is carried out in an enzymatic way through metabolization and helps solve many environmental problems. Currently, different methods are applied in different parts of the world; some common ones include biostimulation, bioaugementation, bioventing, biopiles, and bioattenuation.

biomedcentral

https://biotechforenvironment.biomedcentral.com/articles/10.1186/s44314-024-00008-z

[173] Microbial remediation of polluted environment by using recombinant — Microbial remediation of polluted environment by using recombinant E. Microbial remediation of polluted environment by using recombinant E. Microbial remediation of polluted environment by using recombinant E. The increased pollution in the environment prompted the development of genetically modified microorganisms (GEMs) for pollution abatement via bioremediation. Environmental pollution refers to the degradation of the natural environment because of the introduction of pollutants. In contemporary bioremediation methods, genetically modified organisms play a pivotal role in addressing environmental pollution, particularly in situations where natural bacterial populations are insufficient to handle specific pollutants. In the current bioremediation technique, genetically modified organisms are employed to efficiently eliminate pollutants that native bacteria are unable to decompose . Microbial remediation of polluted environment by using recombinant E.

sciencedirect

https://www.sciencedirect.com/science/article/pii/S2949750724000622

[174] A comprehensive review of sustainable bioremediation techniques: Eco ... — Bioremediation represents a cutting-edge and ecologically sustainable technology that utilizes biological microorganisms to decompose and neutralize pollutants (Ajona and Vasanthi, 2021).This technique plays a crucial role in removing environmental toxins, thereby restoring ecosystems to their natural state and preventing further contamination (Sardrood et al., 2013, Arregui et al., 2019

sciencedirect

https://www.sciencedirect.com/science/article/pii/S0301479723003201

[176] A comprehensive review on the potential of microbial enzymes in ... — Through their catalytic reaction mechanism, microbial enzymes may degrade and eliminate harmful environmental pollutants and transform them into non-toxic forms. The principal types of microbial enzymes which can degrade most hazardous environmental contaminants include hydrolases, lipases, oxidoreductases, oxygenases, and laccases.

biologyinsights

https://biologyinsights.com/microbial-bioremediation-mechanisms-and-interactions-explained/

[177] Microbial Bioremediation: Mechanisms and Interactions Explained — Microbial Bioremediation: Mechanisms and Interactions Explained - BiologyInsights Microbial bioremediation offers a promising approach to environmental pollution by utilizing microorganisms to degrade or transform contaminants. Microbial bioremediation mechanisms are diverse, reflecting the adaptability of microorganisms in various environments. The efficiency of bioremediation depends on factors such as the bioavailability of contaminants, environmental conditions, and the presence of specific microbial strains. Metabolic pathways are crucial to bioremediation, determining how effectively microorganisms transform pollutants into non-toxic compounds. These communities are complex networks of interacting species that work together to degrade pollutants. These interactions can enhance the metabolic potential of microbial communities, allowing them to tackle a wider array of pollutants. Such specialization can lead to a more efficient division of labor within microbial communities, where each species optimally degrades certain pollutants.

environmental-expert

https://www.environmental-expert.com/articles/an-introduction-to-bioremediation-and-its-applications-672434

[189] An Introduction To Bioremediation And Its Applications - Environmental XPRT — Industrial Application Example of Bioremediation Bioremediation can be used in a variety of applications and industries. A few industrial application examples are provided below. Leather Production: Tanneries produce heavy metals, which in turn produce toxic oxides. The oxides can be the cause of diseases like asthma, lung cancer, paralysis

a-otc

https://a-otc.com/types-of-bioremediation/

[190] 12 Types Of Bioremediation - Applications And Benefits — Bioremediation is a cost-effective, eco-friendly solution for environmental restoration, reducing financial burdens often associated with traditional remediation methods. For instance, adding specific nutrients to boost microbial activity or introducing pollutant-degrading microorganisms to the contaminated site falls under extrinsic bioremediation. Bioventing, a subset of extrinsic bioremediation, utilizes aeration to energize microbial activities in unsaturated soil, accelerating the degradation of pollutants, notably petroleum hydrocarbon contaminants. Moreover, biostimulation can be synergized with other remediation strategies like bioaugmentation or bioventing when dealing with complex contamination scenarios, enhancing its effectiveness and providing a more holistic solution to environmental pollution. At AOTC, we harness the power of these bioremediation techniques to offer tailored, effective, and eco-friendly environmental remediation services.

biologynotesonline

https://biologynotesonline.com/bioremediation/

[191] Bioremediation - Definition, Types, Application - Biology Notes Online — Bioremediation is a process used to clean up and detoxify polluted sites by utilizing microorganisms, plants, or their enzymes to break down and degrade environmental contaminants. Bioremediation offers a sustainable and environmentally friendly approach to address pollution issues, as it relies on natural biological processes to remediate contaminated sites. Bioremediation is the use of microorganisms, plants, or their enzymes to clean up and detoxify polluted environments by breaking down and degrading contaminants. A slurry bioreactor is a vessel and apparatus used to create a three-phase (solid, liquid, gas) mixing condition to increase the rate of bioremediation of soil-bound and water-soluble pollutants as a water slurry of contaminated soil and biomass (typically indigenous microorganisms) capable of degrading target contaminants.

sciencedirect

https://www.sciencedirect.com/science/article/pii/S2949750724000622

[192] A comprehensive review of sustainable bioremediation techniques: Eco ... — Bioremediation, an advanced and environmentally sustainable technology, utilizes biological microorganisms to mitigate pollution. This review combines insights from two perspectives: one focusing on the mechanisms, applications, and types of bioremediation, and the other examining the transformative potential of integrating Internet of Things (IoT), Artificial Intelligence (AI), and biosensors

sciencedirect

https://www.sciencedirect.com/science/article/abs/pii/B9780128211991000055

[195] Environmental factors affecting the bioremediation potential of ... — Bioremediation processes are intricately influenced by a range of physical, chemical, and biological factors but not limited to temperature, dissolved oxygen content, and the pollutant load in the soil. Other critical determinants encompass the concentration of heavy metals and the availability of nutrients in the soil, both of which significantly impact the efficacy of bioremediation

frontiersin

https://www.frontiersin.org/journals/soil-science/articles/10.3389/fsoil.2022.937186/full

[196] Bioremediation techniques as affected by limiting factors in soil ... — Choice of bioremediation technique depends on some factors that include nature of pollutant, concentration of pollutant, type of environment, cost of remediation technique, depth of contaminant, and environmental policies [1, 3, and 7]. The polluted soil is treated right at the site of pollution and is, therefore, more cost-effective than the ex-situ bioremediation techniques (26) . Some in-situ bioremediation techniques are enhanced by microbes present in the polluted soil. Bioremediation is uses natural processes to remove, remediate, clean, manage, recover, or solve the problem of polluted soils. Citation: Alori ET, Gabasawa AI, Elenwo CE and Agbeyegbe OO (2022) Bioremediation techniques as affected by limiting factors in soil environment.

oup

https://blog.oup.com/2018/10/bioremediation-microorganisms-clean-up-the-environment/

[198] Bioremediation: using microorganisms to clean up the environment — Bioremediation is a biotechnology procedure, in which microorganisms adapted to degrade pollutants from a contaminated site are stimulated to achieve a better biodegradation rate by enrichment with fertilizers and/or oxygen. Another variation of the technology is introducing microorganisms adapted in a laboratory into the contaminated site.

sciencedirect

https://www.sciencedirect.com/science/article/pii/B978044313844700008X

[203] Bioremediation strategies for leather industrial wastewater — Recent studies have unveiled a range of bioremediation techniques that hold significant promise in addressing tannery wastewater contamination. This paper delineates the latest advancements in tannery wastewater bioremediation. ... Substances employed in leather production and contaminants released into the surrounding ecosystem (Kumar et al

typeset

https://typeset.io/questions/what-are-the-economic-benefits-of-biological-treatment-of-23iqm4vmqo

[204] What are the economic benefits of biological treatment of leather ... — The biological treatment of leather wastewater offers several economic benefits. One benefit is the use of Moving-Bed Biofilm Reactor (MBBR) technology, which incorporates activated sludge and biocarriers to efficiently remove organic and nitrogen pollutants from the wastewater. Another benefit is the reduction in the use of chemicals for pH adjustment in the treatment process. Instead of

springer

https://link.springer.com/article/10.1007/s13399-022-02455-8

[205] Biorefining of leather solid waste to harness energy and materials—A ... — Many articles typically discuss leather waste consequences and their management approaches only. This article presents solid leather waste reutilization strategies for energy and value-added products in a biorefinery concept, building a circular economy. Such a framework would enhance the triple bottom line of any tannery industry.

sciencedirect

https://www.sciencedirect.com/science/article/pii/B978044313844700008X

[213] Bioremediation strategies for leather industrial wastewater — The degradation pathway of leather industry wastewater through bioremediation involves the use of microbial organisms to break down organic pollutants present in the wastewater.

afjbs

http://www.afjbs.com/uploads/paper/804e95a0f1d73bb45aff2030b2c3ac1c.pdf

[215] PDF — Leather industry is considered to be a sustainable industry but due to the nature of the effluents released, effects on environment are enormous. In this review we discuss the various bioremediation strategies being employed for treating leather industrial effluents in an ecofriendly manner.

nih

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7227156/

[216] Microbial Bioremediation of Feather Waste for Keratinase Production: An ... — Batch cultivation of B. cereus using 1 L fermentor indicates a potential candidate for large-scale keratinase production. Thus, keratinase enzyme by degrading poultry wastes (feather) can be an alternative approach to chemical dehairing in leather industries, thus preventing environmental pollution through bioremediation.

sciencedirect

https://www.sciencedirect.com/science/article/abs/pii/B978044313844700008X

[217] Bioremediation strategies for leather industrial wastewater — The existence of chromium and other contaminants in leather industry effluents heightens the risks of skin irritation, ulcers, and even lung cancer. Industrial guidelines strictly prohibit the discharge of sulfide or chromium into wastewater according to environmental standards, necessitating the urgent removal of these highly hazardous

ebrary

https://ebrary.net/192636/environment/advantages_limitations_bioremediation

[226] Advantages and limitations of bioremediation - Academic library — Limitations of bioremediation There are some limitations and challenges associated with bioremediation. It is limited to compounds that are biodegradable and susceptible to rapid and complete degradation. Sometimes, by-products of biodegradation may be more persistent or toxic than the parent compound.

ebrary

https://ebrary.net/192625/environment/challenges_bioremediation

[227] Challenges of bioremediation - Academic library — Bioremediation may take more time than other treatment options, such as excavation and removal of soil or incineration to remediate the contaminants (Zeyaullah et al. There are numerous limitations with electro-bioremediation technology that need to be overcome such as solubility of the pollutant and its desorption from the soil matrix, the availability of potential microorganisms at the site of contamination, the ratio between target and non-target ion concentrations, and toxic electrode effects on microbial metabolism (Virkutyte et al. Pollutants, such as petroleum hydrocarbons, polycyclic aromatic hydrocarbons and some chlorinated pesticides among others, are not easily available to the microorganisms because of their hydrophobicity and persistence in soil.googletag.cmd.push(function() { googletag.display('div-336x280_1'); });The composting efficiency depends on the type of contaminants, temperature, and soil/waste amendment ratio for bioremediation (Antizar-Ladislao et al.

plos

https://journals.plos.org/plosbiology/article?id=10.1371/journal.pbio.3002951

[229] Engineering microbiomes for enhanced bioremediation — In this Perspective, we outline 5 important considerations for the rational design of pollutant-degrading microbiomes for enhanced bioremediation. The effectiveness of single-strain-based bioremediation is frequently limited by various factors, including the low survival rate of inoculated exogenous degrading strains due to competition with indigenous community members or nutrient deficiencies, the inability of a single strain to fully catabolize complicated pollutants, the inhibition of metabolic activities by non-target pollutants or their intermediates, and the difficulty in determining necessary exogenous nutrients for effective biostimulation [3–5]. We envision that the use of synthetic microbiomes will help to overcome existing bottlenecks in designing enhanced pollutant-degrading microbiomes, fully realizing the potential of microbial bioremediation.

alliedacademies

https://www.alliedacademies.org/articles/microbial-bioremediation-harnessing-microorganisms-to-clean-the-environment-31875.html

[232] Microbial Bioremediation: Harnessing Microorganisms to Clean the ... — Factors such as pH, temperature, oxygen availability, and nutrient levels can influence the efficiency of microbial bioremediation. Additionally, microbial communities may not naturally possess the capacity to degrade certain complex pollutants, necessitating the use of bioaugmentation or genetic engineering to introduce specialized microbes [ 8 ].

wiley

https://onlinelibrary.wiley.com/doi/10.1155/2021/9823362

[234] Factors Influencing the Bacterial Bioremediation of Hydrocarbon ... — In general, the rate of biodegradation decreases with decreasing temperature, while it accelerates with increasing temperature. As a result, potential bacteria need an optimal temperature range for complete hydrocarbon degradation. 7.2.7. Effect of pH. Soil pH (neutral, acidic, or alkaline) affects bacterial growth and bioremediation strategies.

agriscigroup

https://www.agriscigroup.us/articles/OJEB-2-107.pdf

[235] PDF — pH of compound which is acidity, basicity and alkalinity nature of compound, it has its own impact on microbial metabolic activity and also increase and decrease removal process. The measurement of pH in soil could indicate the potential for microbial growth . Higher or lower pH values showed inferior results; metabolic processes are highly

nih

https://pubmed.ncbi.nlm.nih.gov/1367330/

[252] Impact of present and future regulations on bioremediation — Search: Search Your saved search Name of saved search: Over the last two decades, at least a dozen Federal environmental statutes have been enacted and hundreds of regulations implemented to control releases of pollutants into the air, water and on land. This paper summarizes the Federal statutes (i.e., the Toxic Substances Control Act (TSCA); the Resource Conservation and Recovery Act (RCRA); the Comprehensive Environmental Response, Compensation and Liability Act (CERCLA); and the Federal Plant Pest Act (FPPA], and regulations that may impact the bioremediation industry; outlines potential markets for bioremediation that are being driven by regulations; and highlights, within the regulatory framework, promising applications for the bioremediation of hazardous wastes. US environmental regulations and policies--their impact on the commercial development of bioremediation.

sciencedirect

https://www.sciencedirect.com/science/article/pii/S0964830596000078

[254] Environmental regulations: A brief overview of their applications to ... — The primary legislative acts of concern are the Resource Conservation and Recovery Act, the Comprehensive Environmental Response, Compensation and Liability Act, the Toxic Substance Control Act and the Federal Plant Pest Act. This paper will briefly discuss the impact on bioremediation of the key provisions of these acts.

tamu

https://scholarship.law.tamu.edu/cgi/viewcontent.cgi?article=1223&context=lawreview

[255] Bioremediation: Breaking Down the Regulations of Genetically Modified ... — To further develop GMMs for bioremediation, lawmakers must bal-ance regulations that allow the bioremediation industry's continued innovation while also protecting human health and the environment. This Article first reviews laws that regulate waste management and the limitations of their current technology requirements. Part III ex-

ebrary

https://ebrary.net/192625/environment/challenges_bioremediation

[256] Challenges of bioremediation - Academic library — Bioremediation may take more time than other treatment options, such as excavation and removal of soil or incineration to remediate the contaminants (Zeyaullah et al. There are numerous limitations with electro-bioremediation technology that need to be overcome such as solubility of the pollutant and its desorption from the soil matrix, the availability of potential microorganisms at the site of contamination, the ratio between target and non-target ion concentrations, and toxic electrode effects on microbial metabolism (Virkutyte et al. Pollutants, such as petroleum hydrocarbons, polycyclic aromatic hydrocarbons and some chlorinated pesticides among others, are not easily available to the microorganisms because of their hydrophobicity and persistence in soil.googletag.cmd.push(function() { googletag.display('div-336x280_1'); });The composting efficiency depends on the type of contaminants, temperature, and soil/waste amendment ratio for bioremediation (Antizar-Ladislao et al.

hilarispublisher

https://www.hilarispublisher.com/open-access/bioremediation-vs-traditional-remediation-methods-a-comparative-analysis-103743.html

[257] Bioremediation vs. Traditional Remediation Methods: A Comparative Analysis — In this article, we will conduct a comparative analysis of bioremediation and traditional remediation methods to understand their respective advantages and limitations. Bioremediation is an eco-friendly approach that utilizes living organisms, primarily microorganisms, to break down or metabolize contaminants in soil and water.

hilarispublisher

https://www.hilarispublisher.com/open-access/bioremediation-vs-traditional-remediation-methods-a-comparative-analysis.pdf

[259] PDF — Traditional Remediation Methods: A Com-parative Analysis Nigam Reynolds* Department of Biodiversity, Suzhou University of Science and Technology, Suzhou, China Introduction In the face of environmental pollution and contamination, the choice of remediation methods is crucial for mitigating the damage caused to ecosystems. Traditional remediation methods prioritize immediate containment, often neglecting the potential long-term ecological benefits associated with bioremediation . The choice between bioremediation and traditional remediation methods should be based on a case-by-case analysis, considering factors such as the type and extent of contamination, site-specific conditions and project objectives. By integrating the strengths of both bioremediation and traditional methods, hybrid strategies aim to strike a balance between rapid containment and long-term sustainability, providing a more comprehensive and effective solution for site remediation . Văcar, Cristina L., Enikö Covaci, Somsubhra Chakraborty and Bin Li, et al.

sciencedirect

https://www.sciencedirect.com/science/article/pii/S2949750724000622

[260] A comprehensive review of sustainable bioremediation techniques: Eco ... — Recent advancements in the field have underscored the effectiveness of bioremediation in mitigating the impacts of anthropogenic pollutants resulting from industrial and agricultural processes (Raajasubramanian et al., 2015).Compared to traditional chemical and physical remediation methods, bioremediation is more eco-friendly, easier to implement, and less invasive.

springer

https://link.springer.com/article/10.1007/s43621-024-00607-6

[261] Recent trends in bioremediation and bioaugmentation strategies for ... — By bridging the gap between traditional biological methods and modern technological tools, this work provides a unique perspective on enhancing the efficiency and effectiveness of bioremediation approaches, addressing critical gaps in current knowledge, and outlining pathways for future research and application in marine pollution management . Immobilization technique promotes microbial development, which enhances bacterial cells’ capacity for environmental adaptation, reduces microbial loss to the environment, and provides a significant source of bacteria for bioremediation . Halotolerant and halophilic bacteria have been effectively added as additional microbial consortium bioaugmentation for the bioremediation of PHCs. As having more varieties of microorganisms does not always translate into more effective degradation, it is crucial to look into practical approaches to establish successful marine oil-degrading microbial consortia.

sciencedirect

https://www.sciencedirect.com/science/article/pii/S2949919424000694

[262] Advances in bioremediation strategies for PFAS-contaminated water and ... — Advances in bioremediation strategies for PFAS-contaminated water and soil - ScienceDirect Advances in bioremediation strategies for PFAS-contaminated water and soil This review aims to address these gaps by providing a comprehensive analysis of recent developments in the bioremediation of PFAS-contaminated soil and water systems. The key findings from this review include: 1) microbial community composition, field application, presence of co-substrate and cationic complexation govern biotransformation and fate of PFAS, 2) long chain PFAS are more susceptible to accumulate in the roots due to high hydrophobicity, and 3) algae-bacteria symbiotic relationships reduce microalgae growth inhibition and stimulates PFAS removal. This article is part of a special issue entitled: Emerging contaminants published in Soil & Environmental Health. For all open access content, the Creative Commons licensing terms apply.

wiley

https://onlinelibrary.wiley.com/doi/10.1002/tqem.70018

[263] Advancements in Bioremediation: Harnessing Nanomaterials and ... — The article focuses on the advancements of bioremediation, specifically, nanobioremediation, in enhancing pollutant degradation. This study is the application of nanomaterials synthesized by microorganisms and plants to enhance efficiency in pollutant removal in the environmental restoration process.

bioscipublisher

https://bioscipublisher.com/index.php/gab/article/html/3820

[264] Beyond Traditional Bioremediation: The Potential of Engineered SynComs ... — The future of bioremediation lies in the continued innovation and integration of synthetic biology, genetic engineering, and environmental science. The development of more robust and versatile microbial communities capable of degrading a wide range of pollutants will be crucial in addressing the growing environmental challenges ( Pant et al

sciencedirect

https://www.sciencedirect.com/science/article/pii/S0269749124020141

[266] Metagenomic approaches in bioremediation of environmental pollutants — Metagenomic approaches in bioremediation of environmental pollutants - ScienceDirect Metagenomics has emerged as a pivotal tool in bioremediation, providing a deeper understanding of the structure and function of the microbial communities involved in pollutant degradation. The metagenomic approach has also been applied to bioremediation, where novel systems for the microbial remediation of contaminants have been discovered (Behera et al., 2020; Gao et al., 2021; Shi et al., 2019; Xing et al., 2020). The integration of computational and bioinformatics capabilities in bioremediation studies enables the efficient analysis of large amounts of metagenomic sequence data generated in the characterization of any biome for its bioremediation potential (Nigam et al., 2023).

sciencedirect

https://www.sciencedirect.com/science/article/pii/S0045653522032441

[267] Genetically engineered microorganisms for environmental remediation — Abstract In the recent era, the increasing persistence of hazardous contaminants is badly affecting the globe in many ways. Advances in newer remediation approaches may help enhance bioremediation's quality, while conventional procedures have failed to remove hazardous compounds from the environment. Thus, there has been a rise in the use of bioremediation due to an increase in environmental contamination, which led to the development of genetically engineered microbes (GEMs). GEMs are created by introducing a stronger protein into bacteria through biotechnology or genetic engineering to enhance the desired trait.

sciencedirect

https://www.sciencedirect.com/science/article/pii/S0981942824007587

[269] Perspectives on nanomaterial-empowered bioremediation of heavy metals ... — The broader integration of nanomaterials in bioremediation efforts involving unicellular phototrophs may be driven by two key factors: firstly, the documented beneficial effects of nanomaterials on the growth, HM tolerance and photosynthetic performance of microorganisms, and secondly, the capability of nanomaterials to interact with HMs

wiley

https://onlinelibrary.wiley.com/doi/abs/10.1002/9781394271641.ch2

[271] Nanomaterials and Microbial Compatibility - Nano‐Bioremediation for ... — The chapter also addresses the antagonistic mechanisms, where nanomaterials exert inhibitory effects and unintended consequences on microbial growth, and discusses the challenges associated with the development and implementation of nanomaterials, emphasizing the importance of responsible and sustainable nanotechnology practices.

researchgate

https://www.researchgate.net/publication/345450837_Nano-bioremediation_of_environmental_contaminants_applications_challenges_and_future_prospects

[272] Nano-bioremediation of environmental contaminants: applications ... — There are however many limitations to using nanomaterials for bioremediation and hence, their toxicology, transport, fate, and bioaccumulation needs to be further explored and understood [116

sciencedirect

https://www.sciencedirect.com/science/article/pii/S0958166912000341

[273] Towards synthetic microbial consortia for bioprocessing — The integration of synthetic biology with metabolic engineering at the community level is vital to our ability to apply system-level approaches to building and optimizing synthetic consortia for bioprocessing applications. This review details new methods, tools and opportunities that together have the potential to enable a new paradigm of

nih

https://pmc.ncbi.nlm.nih.gov/articles/PMC9763274/

[275] Construction of microbial consortia for microbial degradation of ... — Microbial consortia bioremediation and reuse of complex compounds. Creating an artificial microbial consortia system distributes the desired multiple catalytic enzyme expression pathways to different strains, and then co-culturing all strains to complete the task (Zhang and Stephanopoulos, 2016; Li Z. et al., 2019).The microbial consortia can degrade complex compounds that cannot be decomposed

sciencedirect

https://www.sciencedirect.com/science/article/pii/S1367593120301009

[276] How synthetic biology can help bioremediation - ScienceDirect — Advances in synthetic biology are unlocking this potential enabling the design of tailor-made organisms for bioremediation. In this article, we showcase examples of xenobiotic clean-up to illustrate current achievements and discuss the limitations to advancing this promising technology to make real-world improvements in the remediation of

sciencedirect

https://www.sciencedirect.com/science/article/pii/B9780128203187000046

[283] Nano-bioremediation of environmental contaminants: applications ... — The application of single technology is inappropriate for the remediation of the contaminants. The combination of the nanomaterials and bioremediation has immense potential to be effective and sustainable (Rizwan, Singh, Mitra, & Morve, 2014).Keeping this in mind, application of nanotechnology with biological processes is found beneficial.