Fungal:Bacterial Ratio

AUS-TGP-FOR-SFB General Moderate confidence

Benchmark Value

No specific value — see range

Range: 5 to 20 index

Optimal Range: 5 to 20

Direction: Higher is desirable ↑

Form: OptimalRange

Scoring Curve

This curve shows how a field measurement for this indicator would score across all available benchmark forms in this context. The scoring engine uses 6 benchmarks together — the OptimalRange form drives the primary score, while 5 guard(s) constrain the result.

Contributing Benchmarks

OptimalRange Primary MinimumOnly Guard OptimalRange Guard MinimumOnly Guard OptimalRange Guard MinimumOnly Guard

Evidence & Context

Based on this synthesis, a scientifically defensible benchmark for a "best-on-offer" sustainable production forestry system in this biome is a F:B ratio in the range of 5.0:1 to 20.0:1.

Metric Definition:

Fungal to bacterial biomass ratio in soil microbial communities

Benchmark Definition:

This benchmark defines the optimal fungal to bacterial biomass ratio range in soil microbial communities for sustainable production forestry in temperate grassy woodlands and plains, indicating a resilient, fungal-dominated soil ecosystem.

Justification:

Derived from a synthesis of established ecological principles and data from analogous systems, as no direct field measurement for this specific context exists.

Sources (5)

Preview of About the Fungal-to-Bacterial Biomass Ratio - Mycoscope, accessed August 10, 2025,

About the Fungal-to-Bacterial Biomass Ratio - Mycoscope, accessed August 10, 2025, Journal

Analyses of soil fungal communities in adjacent natural forest and hoop pine plantation ecosystems of subtropical Australia using molecular approaches based on 18S rRNA genes | Request PDF - ResearchGate

Preview of ausveg - fact sheet: soil microbiology, accessed July 18, 2025

ausveg - fact sheet: soil microbiology, accessed July 18, 2025 Journal

ausveg - fact sheet: soil microbiology

Preview of ECOLOGICALLY SUSTAINABLE FOREST MANAGEMENT - Forestry Australia, accessed August 10, 2025,

ECOLOGICALLY SUSTAINABLE FOREST MANAGEMENT - Forestry Australia, accessed August 10, 2025, Journal

www.forestry.org.au

Preview of Srivastava, S. C., & Singh, J. S. (1989). Effect of cultivation on microbial biomass C and N of a dry tropical forest soil. Biology and Fertility of Soils, 8(4), 343-348.

Srivastava, S. C., & Singh, J. S. (1989). Effect of cultivation on microbial biomass C and N of a dry tropical forest soil. Biology and Fertility of Soils, 8(4), 343-348. GreyLiterature

Soil microbial biomass, activity and community composition in adjacent native and plantation forests of subtropical Australia | Request PDF - ResearchGate

Preview of ten key steps to conserving Australia's temperate eucalypt woodlands - the UWA Profiles and Research Repository, accessed August 4, 2025

ten key steps to conserving Australia's temperate eucalypt woodlands - the UWA Profiles and Research Repository, accessed August 4, 2025

Sustainable forest management and the ecosystem approach - an Australian perspective

Supporting Sources (24)

Additional references from the underlying research that informed this benchmark.

Preview of (PDF) The measurement of soil fungal:bacterial biomass ratios as an ..., accessed July 19, 2025,

(PDF) The measurement of soil fungal:bacterial biomass ratios as an ..., accessed July 19, 2025,

Methodology Source Journal

Soil microbial community composition under Eucalyptus plantations of different age in subtropical China - ResearchGate, accessed July 23, 2025

Preview of Analyzing your Fungal to Bacterial Ratio Results - MicroBiometer, accessed July 18, 2025

Analyzing your Fungal to Bacterial Ratio Results - MicroBiometer, accessed July 18, 2025

Contextual Support GreyLiterature

Analyzing your Fungal to Bacterial Ratio Results - microBIOMETER, accessed July 23, 2025

Preview of Are Fungal to Bacterial Ratios (F:B Ratio) Important for Plant Growth? - Garden Myths, accessed July 28, 2025

Are Fungal to Bacterial Ratios (F:B Ratio) Important for Plant Growth? - Garden Myths, accessed July 28, 2025

Contextual Support GreyLiterature

Fungal/bacterial ratios in grasslands with contrasting nitrogen management, accessed July 23, 2025

Preview of Biogeographical patterns of the soil fungal:bacterial ratio across France - PubMed Central, accessed July 18, 2025

Biogeographical patterns of the soil fungal:bacterial ratio across France - PubMed Central, accessed July 18, 2025

Contextual Support Journal

Mechanisms and implications of bacterial–fungal competition for soil resources - PMC, accessed July 23, 2025

Preview of Biogeographical patterns of the soil fungal:bacterial ratio across France - PubMed, accessed July 28, 2025,

Biogeographical patterns of the soil fungal:bacterial ratio across France - PubMed, accessed July 28, 2025,

Contextual Support Journal

Biogeographical patterns of the soil fungal:bacterial ratio across France - PubMed Central

Preview of Forest and Plantation Soil Microbiomes Differ in Their Capacity to Suppress Feedback Between Geosmithia morbida and Rhizosphere Pathogens of Juglans nigra Seedlings - APS Journals, accessed August 10, 2025,

Forest and Plantation Soil Microbiomes Differ in Their Capacity to Suppress Feedback Between Geosmithia morbida and Rhizosphere Pathogens of Juglans nigra Seedlings - APS Journals, accessed August 10, 2025,

Contextual Support GreyLiterature

Forest and Plantation Soil Microbiomes Differ in Their Capacity to Suppress Feedback Between Geosmithia morbida and Rhizosphere Pathogens of Juglans nigra Seedlings - APS Journals, accessed August 10, 2025,

Preview of Forest Practices Plans - Private Forests Tasmania

Forest Practices Plans - Private Forests Tasmania

Contextual Support Journal

Australia's forests – overview - DAFF

Preview of Fungal Community, Not Substrate Quality, Drives Soil Microbial Function in Northeastern U.S. Temperate Forests - Frontiers, accessed August 10, 2025,

Fungal Community, Not Substrate Quality, Drives Soil Microbial Function in Northeastern U.S. Temperate Forests - Frontiers, accessed August 10, 2025,

Contextual Support Journal

Fungal Community, Not Substrate Quality, Drives Soil Microbial Function in Northeastern U.S. Temperate Forests - Frontiers, accessed August 10, 2025,

Preview of Fungal to Bacterial Ratios: What and Why? - Ward Laboratories, Inc., accessed July 18, 2025

Fungal to Bacterial Ratios: What and Why? - Ward Laboratories, Inc., accessed July 18, 2025

Contextual Support Journal

Tagged with ratio of fungi to bacteria - The Prairie Ecologist, accessed July 21, 2025

Preview of Fungi to bacteria ratio: Historical misinterpretations and potential implications | Request PDF, accessed July 18, 2025

Fungi to bacteria ratio: Historical misinterpretations and potential implications | Request PDF, accessed July 18, 2025

Contextual Support Journal

Mechanisms and implications of bacterial–fungal competition for soil resources - PMC, accessed July 21, 2025

Preview of Logging has legacy effects on the structure of soil fungal communities several decades after cessation in Western Cascade forest stands - Frontiers, accessed August 10, 2025,

Logging has legacy effects on the structure of soil fungal communities several decades after cessation in Western Cascade forest stands - Frontiers, accessed August 10, 2025,

Contextual Support GreyLiterature

Logging has legacy effects on the structure of soil fungal communities several decades after cessation in Western Cascade forest stands - Frontiers, accessed August 10, 2025,

Preview of Mechanisms and implications of bacterial–fungal competition for soil resources - PMC, accessed July 18, 2025

Mechanisms and implications of bacterial–fungal competition for soil resources - PMC, accessed July 18, 2025

Contextual Support Journal

Soil Fungal:Bacterial Ratios Are Linked to Altered Carbon Cycling - Frontiers, accessed July 23, 2025

Preview of Mechanisms and implications of bacterial–fungal competition for soil resources | The ISME Journal | Oxford Academic, accessed July 18, 2025

Mechanisms and implications of bacterial–fungal competition for soil resources | The ISME Journal | Oxford Academic, accessed July 18, 2025

Contextual Support Journal

Mechanisms and implications of bacterial–fungal competition for soil resources | The ISME Journal | Oxford Academic

Preview of Natural Temperate Grassland of the Southern Tablelands of NSW and the Australian Capital Territory. - DCCEEW, accessed August 12, 2025,

Natural Temperate Grassland of the Southern Tablelands of NSW and the Australian Capital Territory. - DCCEEW, accessed August 12, 2025,

Contextual Support Government

NVIS Fact sheet MVG 19 Tussock grasslands, accessed August 6, 2025

Preview of NVIS Fact sheet MVG 19 6 Tussock grasslands, accessed July 16, 2025,

NVIS Fact sheet MVG 19 6 Tussock grasslands, accessed July 16, 2025,

Contextual Support Journal

Understanding soil pH, accessed August 28, 2025

Preview of Soil Fungal:Bacterial Ratios Are Linked to Altered Carbon ... - Frontiers, accessed July 18, 2025

Soil Fungal:Bacterial Ratios Are Linked to Altered Carbon ... - Frontiers, accessed July 18, 2025

Contextual Support Journal

How Biodiversity-Friendly Is Regenerative Grazing? - Frontiers

Preview of Soil Fungal:Bacterial Ratios Are Linked to Altered Carbon Cycling - PMC - PubMed Central, accessed July 28, 2025

Soil Fungal:Bacterial Ratios Are Linked to Altered Carbon Cycling - PMC - PubMed Central, accessed July 28, 2025

Contextual Support Journal

The fungal-bacterial ratio for soil health - Farmer's Weekly, accessed July 21, 2025

Preview of Temperate Grasslands - Greening Australia, accessed August 4, 2025

Temperate Grasslands - Greening Australia, accessed August 4, 2025

Contextual Support Journal

Plant nutrients in the soil - NSW Department of Primary Industries

Preview of ten key steps to conserving Australia's temperate eucalypt woodlands - the UWA Profiles and Research Repository, accessed August 10, 2025,

ten key steps to conserving Australia's temperate eucalypt woodlands - the UWA Profiles and Research Repository, accessed August 10, 2025,

Contextual Support Government

ten key steps to conserving Australia's temperate eucalypt woodlands - the UWA Profiles and Research Repository, accessed August 10, 2025,

Preview of The biogeography of relative abundance of soil fungi versus bacteria in surface topsoil, accessed on June 5, 2025

The biogeography of relative abundance of soil fungi versus bacteria in surface topsoil, accessed on June 5, 2025

Contextual Support Journal

Fungal/bacterial ratios in grasslands with contrasting nitrogen management, accessed July 31, 2025

Preview of The incorporation of fungal to bacterial ratios and plant ecosystem ..., accessed August 10, 2025,

The incorporation of fungal to bacterial ratios and plant ecosystem ..., accessed August 10, 2025,

Contextual Support Journal

The incorporation of fungal to bacterial ratios and plant ecosystem ..., accessed August 10, 2025,

Preview of The PLFA Soil Health Test | Agronomic Crops Network - The Ohio State University, accessed on June 5, 2025

The PLFA Soil Health Test | Agronomic Crops Network - The Ohio State University, accessed on June 5, 2025

Contextual Support GreyLiterature

Temperate Grasslands - Greening Australia, accessed August 10, 2025,

Preview of Untangling the deep-rooted relationship between trees and fungi to reverse dieback, accessed August 10, 2025,

Untangling the deep-rooted relationship between trees and fungi to reverse dieback, accessed August 10, 2025,

Contextual Support

Untangling the deep-rooted relationship between trees and fungi to reverse dieback, accessed August 10, 2025,

Preview of Woodlands - DCCEEW, accessed August 5, 2025,

Woodlands - DCCEEW, accessed August 5, 2025,

Contextual Support Government

Woodlands - DCCEEW, accessed August 4, 2025,

Context

Region Australia
Biome Temperate Grassy Woodlands & Plains
Land Use Production Forestry
Assessment Not Stated
Evidence Type ReferenceCondition

Lifecycle

Status Active
Version 1
Effective From 8 Jun 2026

Notes

No upper detrimental threshold — higher values are always better up to natural saturation. The range represents a resilient, unequivocally fungal-dominated soil food web achievable under best-practice sustainable forestry. It indicates a system not degraded to a bacterially-dominated state, acknowledging inherent disturbance of production landscape. AssessmentContext defaulted to 'Not Stated' because the source document did not state one.

Related Benchmarks

Other benchmarks in the AUS-TGP-FOR-SFB family.