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Human Whole Genome SequencingWhole Exome SequencingPlant and Animal Whole Genome SequencingPlant and Animal De novo SequencingDNA Methylation SequencingmRNA SequencingFull-Length Transcriptome SequencingWhole Transcriptome SequencingMetatranscriptome SequencingShotgun Metagenomics SequencingAmplicon SequencingWhole Plasmid Sequencing10X Single Cell Gene Expression10X Single Cell Immune Profiling10X Visium HD Spatial Gene ExpressionOlink ProteomicsUntargeted MetabolomicsAccredited & Validated Clinical Research Sequencing
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Novogene Europe
  • Novogene Europe
  • Genomics
    • Human Whole Genome Sequencing
    • Whole Exome Sequencing
    • Plant and Animal Whole Genome Sequencing
    • Plant and Animal De novo Sequencing
    • Microbial Whole Genome Sequencing
    • Microbial De novo Sequencing
    • Whole Plasmid SequencingOrder Online!
    Proteomics
    • Olink ProteomicsNew!
    Epigenomics
    • DNA Methylation SequencingUpdated!
    • Chromatin Immunoprecipitation Sequencing (ChIP-seq)
    • RNA Immunoprecipitation Sequencing (RIP-seq)
    Metabolomics
    • Untargeted MetabolomicsComing Soon!
    Transcriptomics
    • mRNA Sequencing
    • Small RNA Sequencing (sRNA‑seq)
    • Circular RNA Sequencing (circRNA-seq)
    • Total RNA Sequencing
    • Whole Transcriptome Sequencing
    • Full-Length Transcriptome Sequencing
    • Prokaryotic RNA Sequencing
    • Metatranscriptome Sequencing
    Metagenomics
    • Amplicon SequencingOrder Online!
    • Shotgun Metagenomics Sequencing
    Single Cell & Spatial Omics
    • 10X Single Cell Gene Expression
    • 10X Single Cell Immune Profiling
    • 10X Visium HD Spatial Gene Expression
    Premade Library
    • Sequencing Only on Illumina® Sequencer
    • Sequencing Only on Element SequencerNew!
    • Sequencing Only on PacBio Sequencer
    Translational Research
    • Accredited & Validated Clinical Research Sequencing
  • PromotionsPromotions
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    • Automated Delivery Platform (Falcon)
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    • Immuno-oncology
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    • Rare and Complex Diseases
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    • Careers
    • Our Locations
  • Contact UsContact Us
    • Amplicon Sequencing
    • Whole Plasmid Sequencing

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Services
Human Whole Genome SequencingWhole Exome SequencingPlant and Animal Whole Genome SequencingPlant and Animal De novo SequencingDNA Methylation SequencingmRNA SequencingFull-Length Transcriptome SequencingWhole Transcriptome SequencingMetatranscriptome SequencingShotgun Metagenomics SequencingAmplicon SequencingWhole Plasmid Sequencing10X Single Cell Gene Expression10X Single Cell Immune Profiling10X Visium HD Spatial Gene ExpressionOlink ProteomicsUntargeted MetabolomicsAccredited & Validated Clinical Research Sequencing
Resources
WebinarsCase StudyBlogBrochure
Support
PlatformBioinformatics Analysis Tool (NovoMagic)Customer Service System (CSS)Customer Support
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Copyright © 2026 Novogene Inc. All rights reserved.For Research Use Only. Not for Clinical Diagnostic Use.
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Environmental Research

Omics approaches for studying biodiversity, microbial communities, ecosystem function and environmental change.

Overview

Environmental research increasingly uses sequencing and omics technologies to study biodiversity, microbial communities and ecosystem function across soil, water, sediment, air and built or managed environments.


Environmental DNA, marker-gene sequencing and metagenomic approaches can help researchers detect biological signals from complex samples, monitor community composition and investigate how organisms respond to environmental change, pollution, land use, climate pressures or restoration activities.


By combining taxonomic, functional and community-level data, environmental omics can support studies of biodiversity assessment, ecosystem health, nutrient cycling, pathogen surveillance, antimicrobial resistance, bioremediation and host–environment interactions.

Preview

Environmental research increasingly uses sequencing and omics technologies to study biodiversity, microbial communities and ecosystem function across soil, water, sediment, air and built or managed environments.


Environmental DNA, marker-gene sequencing and metagenomic approaches can help researchers detect biological signals from complex samples, monitor community composition and investigate how organisms respond to environmental change, pollution, land use, climate pressures or restoration activities.


By combining taxonomic, functional and community-level data, environmental omics can support studies of biodiversity assessment, ecosystem health, nutrient cycling, pathogen surveillance, antimicrobial resistance, bioremediation and host–environment interactions.

Preview

Overview

Environmental research increasingly uses sequencing and omics technologies to study biodiversity, microbial communities and ecosystem function across soil, water, sediment, air and built or managed environments.


Environmental DNA, marker-gene sequencing and metagenomic approaches can help researchers detect biological signals from complex samples, monitor community composition and investigate how organisms respond to environmental change, pollution, land use, climate pressures or restoration activities.


By combining taxonomic, functional and community-level data, environmental omics can support studies of biodiversity assessment, ecosystem health, nutrient cycling, pathogen surveillance, antimicrobial resistance, bioremediation and host–environment interactions.

Preview

Environmental research increasingly uses sequencing and omics technologies to study biodiversity, microbial communities and ecosystem function across soil, water, sediment, air and built or managed environments.


Environmental DNA, marker-gene sequencing and metagenomic approaches can help researchers detect biological signals from complex samples, monitor community composition and investigate how organisms respond to environmental change, pollution, land use, climate pressures or restoration activities.


By combining taxonomic, functional and community-level data, environmental omics can support studies of biodiversity assessment, ecosystem health, nutrient cycling, pathogen surveillance, antimicrobial resistance, bioremediation and host–environment interactions.

Preview

How Omics Supports Environmental Research

Common Research Approaches

eDNA & Biodiversity Monitoring

Detect species and community signals from environmental samples to support biodiversity assessment and ecosystem monitoring studies.

eDNA & Biodiversity Monitoring

Detect species and community signals from environmental samples to support biodiversity assessment and ecosystem monitoring studies.

Soil, Water & Sediment Microbiomes

Characterise bacterial, fungal and broader microbial communities across habitats, gradients, treatments or changing environmental conditions.

Soil, Water & Sediment Microbiomes

Characterise bacterial, fungal and broader microbial communities across habitats, gradients, treatments or changing environmental conditions.

Shotgun Metagenomic Profiling

Investigate taxonomic composition, functional genes, pathways and microbial potential within complex environmental communities and mixed sample types.

Shotgun Metagenomic Profiling

Investigate taxonomic composition, functional genes, pathways and microbial potential within complex environmental communities and mixed sample types.

Environmental Response Studies

Explore how biological communities respond to pollution, restoration, climate-related pressures, land-use change and other environmental disturbances.

Environmental Response Studies

Explore how biological communities respond to pollution, restoration, climate-related pressures, land-use change and other environmental disturbances.

How Omics Supports Environmental Research

Common Research Approaches

eDNA & Biodiversity Monitoring

Detect species and community signals from environmental samples to support biodiversity assessment and ecosystem monitoring studies.

eDNA & Biodiversity Monitoring

Detect species and community signals from environmental samples to support biodiversity assessment and ecosystem monitoring studies.

Soil, Water & Sediment Microbiomes

Characterise bacterial, fungal and broader microbial communities across habitats, gradients, treatments or changing environmental conditions.

Soil, Water & Sediment Microbiomes

Characterise bacterial, fungal and broader microbial communities across habitats, gradients, treatments or changing environmental conditions.

Shotgun Metagenomic Profiling

Investigate taxonomic composition, functional genes, pathways and microbial potential within complex environmental communities and mixed sample types.

Shotgun Metagenomic Profiling

Investigate taxonomic composition, functional genes, pathways and microbial potential within complex environmental communities and mixed sample types.

Environmental Response Studies

Explore how biological communities respond to pollution, restoration, climate-related pressures, land-use change and other environmental disturbances.

Environmental Response Studies

Explore how biological communities respond to pollution, restoration, climate-related pressures, land-use change and other environmental disturbances.

Supporting Environmental Research with Novogene Europe

Novogene Europe provides access to amplicon sequencing, shotgun metagenomics, metatranscriptomics, microbial genomics and bioinformatics workflows that can support environmental research across diverse sample types.


Depending on your study design, our team can help you consider suitable approaches for soil, water, sediment, biodiversity, microbial ecology, environmental monitoring or ecosystem research projects.

Discuss Your Environmental Research Project

Share your samples and research goals, and our team can help identify suitable sequencing or multi-omics options.
Contact Us
(Discuss Your Environmental Research Project)
Contact Us
(Discuss Your Environmental Research Project)
Privacy PolicyCookie PolicyTerms
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Environmental Research

Omics approaches for studying biodiversity, microbial communities, ecosystem function and environmental change.

Overview

Environmental research increasingly uses sequencing and omics technologies to study biodiversity, microbial communities and ecosystem function across soil, water, sediment, air and built or managed environments.


Environmental DNA, marker-gene sequencing and metagenomic approaches can help researchers detect biological signals from complex samples, monitor community composition and investigate how organisms respond to environmental change, pollution, land use, climate pressures or restoration activities.


By combining taxonomic, functional and community-level data, environmental omics can support studies of biodiversity assessment, ecosystem health, nutrient cycling, pathogen surveillance, antimicrobial resistance, bioremediation and host–environment interactions.

Preview

Environmental research increasingly uses sequencing and omics technologies to study biodiversity, microbial communities and ecosystem function across soil, water, sediment, air and built or managed environments.


Environmental DNA, marker-gene sequencing and metagenomic approaches can help researchers detect biological signals from complex samples, monitor community composition and investigate how organisms respond to environmental change, pollution, land use, climate pressures or restoration activities.


By combining taxonomic, functional and community-level data, environmental omics can support studies of biodiversity assessment, ecosystem health, nutrient cycling, pathogen surveillance, antimicrobial resistance, bioremediation and host–environment interactions.

Preview

Overview

Environmental research increasingly uses sequencing and omics technologies to study biodiversity, microbial communities and ecosystem function across soil, water, sediment, air and built or managed environments.


Environmental DNA, marker-gene sequencing and metagenomic approaches can help researchers detect biological signals from complex samples, monitor community composition and investigate how organisms respond to environmental change, pollution, land use, climate pressures or restoration activities.


By combining taxonomic, functional and community-level data, environmental omics can support studies of biodiversity assessment, ecosystem health, nutrient cycling, pathogen surveillance, antimicrobial resistance, bioremediation and host–environment interactions.

Preview

Environmental research increasingly uses sequencing and omics technologies to study biodiversity, microbial communities and ecosystem function across soil, water, sediment, air and built or managed environments.


Environmental DNA, marker-gene sequencing and metagenomic approaches can help researchers detect biological signals from complex samples, monitor community composition and investigate how organisms respond to environmental change, pollution, land use, climate pressures or restoration activities.


By combining taxonomic, functional and community-level data, environmental omics can support studies of biodiversity assessment, ecosystem health, nutrient cycling, pathogen surveillance, antimicrobial resistance, bioremediation and host–environment interactions.

Preview

How Omics Supports Environmental Research

Common Research Approaches

eDNA & Biodiversity Monitoring

Detect species and community signals from environmental samples to support biodiversity assessment and ecosystem monitoring studies.

eDNA & Biodiversity Monitoring

Detect species and community signals from environmental samples to support biodiversity assessment and ecosystem monitoring studies.

Soil, Water & Sediment Microbiomes

Characterise bacterial, fungal and broader microbial communities across habitats, gradients, treatments or changing environmental conditions.

Soil, Water & Sediment Microbiomes

Characterise bacterial, fungal and broader microbial communities across habitats, gradients, treatments or changing environmental conditions.

Shotgun Metagenomic Profiling

Investigate taxonomic composition, functional genes, pathways and microbial potential within complex environmental communities and mixed sample types.

Shotgun Metagenomic Profiling

Investigate taxonomic composition, functional genes, pathways and microbial potential within complex environmental communities and mixed sample types.

Environmental Response Studies

Explore how biological communities respond to pollution, restoration, climate-related pressures, land-use change and other environmental disturbances.

Environmental Response Studies

Explore how biological communities respond to pollution, restoration, climate-related pressures, land-use change and other environmental disturbances.

How Omics Supports Environmental Research

Common Research Approaches

eDNA & Biodiversity Monitoring

Detect species and community signals from environmental samples to support biodiversity assessment and ecosystem monitoring studies.

eDNA & Biodiversity Monitoring

Detect species and community signals from environmental samples to support biodiversity assessment and ecosystem monitoring studies.

Soil, Water & Sediment Microbiomes

Characterise bacterial, fungal and broader microbial communities across habitats, gradients, treatments or changing environmental conditions.

Soil, Water & Sediment Microbiomes

Characterise bacterial, fungal and broader microbial communities across habitats, gradients, treatments or changing environmental conditions.

Shotgun Metagenomic Profiling

Investigate taxonomic composition, functional genes, pathways and microbial potential within complex environmental communities and mixed sample types.

Shotgun Metagenomic Profiling

Investigate taxonomic composition, functional genes, pathways and microbial potential within complex environmental communities and mixed sample types.

Environmental Response Studies

Explore how biological communities respond to pollution, restoration, climate-related pressures, land-use change and other environmental disturbances.

Environmental Response Studies

Explore how biological communities respond to pollution, restoration, climate-related pressures, land-use change and other environmental disturbances.

Supporting Environmental Research with Novogene Europe

Novogene Europe provides access to amplicon sequencing, shotgun metagenomics, metatranscriptomics, microbial genomics and bioinformatics workflows that can support environmental research across diverse sample types.


Depending on your study design, our team can help you consider suitable approaches for soil, water, sediment, biodiversity, microbial ecology, environmental monitoring or ecosystem research projects.

Discuss Your Environmental Research Project

Share your samples and research goals, and our team can help identify suitable sequencing or multi-omics options.
Contact Us
(Discuss Your Environmental Research Project)
Contact Us
(Discuss Your Environmental Research Project)
Privacy PolicyCookie PolicyTerms