Soil Water Infiltration Rate

AUS-TGP-CON-SWI General Moderate confidence

Benchmark Value

No specific value — see range

Range: 25 to 150 mm/hr

Optimal Range: 25 to 150

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 2 benchmarks together — the OptimalRange form drives the primary score, while 1 guard(s) constrain the result.

Contributing Benchmarks

OptimalRange Primary Point Guard

Evidence & Context

An optimal functional range for temperate grassy woodlands on fine-textured soils is proposed as 25 mm/hr to 150 mm/hr.

Metric Definition:

Optimal functional range of soil water infiltration rate for a healthy temperate grassy woodland ecosystem on fine-textured soils.

Benchmark Definition:

This range represents a healthy temperate grassy woodland ecosystem on fine-textured soils, reflecting natural variability from grasslands to mature woodlands.

Justification:

This range reflects the natural heterogeneity of a healthy woodland ecosystem, supporting a mosaic of grassland and woodland structural components.

Sources (1)

Preview of Ecosystem wicks: Woodland trees enhance water infiltration in a fragmented agricultural landscape in eastern Australia

Ecosystem wicks: Woodland trees enhance water infiltration in a fragmented agricultural landscape in eastern Australia Journal

Ecosystem wicks: Woodland trees enhance water infiltration in a fragmented agricultural landscape in eastern Australia

Supporting Sources (17)

Additional references from the underlying research that informed this benchmark.

Preview of (PDF) Restoring ecological function in temperate grassy woodlands - manipulating soil nutrients, annual exotics and native perennial grasses through carbon supplements and spring burns - ResearchGate, accessed August 5, 2025,

(PDF) Restoring ecological function in temperate grassy woodlands - manipulating soil nutrients, annual exotics and native perennial grasses through carbon supplements and spring burns - ResearchGate, accessed August 5, 2025,

Contextual Support GreyLiterature

How Biodiversity-Friendly Is Regenerative Grazing? - Frontiers

Preview of A guide to managing Box Gum Grassy Woodlands - DCCEEW, accessed August 4, 2025

A guide to managing Box Gum Grassy Woodlands - DCCEEW, accessed August 4, 2025

Contextual Support Journal

Manning, A. D., Cunningham, R. B., Tongway, D., & Lindenmayer, D. B. (2020). Woodlands and woody debris: Understanding structure and composition to inform restoration. PLoS ONE, 15(3), e0224258.

Preview of Diversity and abundance of biological soil crust taxa in relation to fine and coarse-scale disturbances in a grassy eucalypt woo, accessed August 11, 2025

Diversity and abundance of biological soil crust taxa in relation to fine and coarse-scale disturbances in a grassy eucalypt woo, accessed August 11, 2025

Contextual Support Journal

Select Publications by Dr David John Eldridge | UNSW Research, accessed August 11, 2025

Preview of Environmental Stewardship - Box Gum Grassy Woodland Project - Information Booklet - DCCEEW, accessed August 12, 2025,

Environmental Stewardship - Box Gum Grassy Woodland Project - Information Booklet - DCCEEW, accessed August 12, 2025,

Contextual Support Journal

The Nature of Soil - Local Land Services

Preview of How do fire regimes affect ecosystem structure, function and ..., accessed August 11, 2025

How do fire regimes affect ecosystem structure, function and ..., accessed August 11, 2025

Contextual Support GreyLiterature

How do fire regimes affect ecosystem structure, function and ..., accessed August 11, 2025

Preview of Identifying ecological barriers to restoration in temperate grassy woodlands: soil changes associated with different degradation states - ResearchGate, accessed August 5, 2025,

Identifying ecological barriers to restoration in temperate grassy woodlands: soil changes associated with different degradation states - ResearchGate, accessed August 5, 2025,

Contextual Support GreyLiterature

(PDF) Identifying ecological barriers to restoration in temperate grassy woodlands: soil changes associated with different degradation states - ResearchGate, accessed August 4, 2025,

Preview of Infiltration for Soil Quality | South Dakota Soil Health Coalition, accessed August 11, 2025

Infiltration for Soil Quality | South Dakota Soil Health Coalition, accessed August 11, 2025

Contextual Support Journal

Infiltration for Soil Quality | South Dakota Soil Health Coalition, accessed August 11, 2025

Preview of Microsite and grazing intensity drive infiltration in a semi-arid woodland - ResearchGate, accessed August 11, 2025

Microsite and grazing intensity drive infiltration in a semi-arid woodland - ResearchGate, accessed August 11, 2025

Contextual Support

Grazing dampens the positive effects of shrub ... - Arid Ecology Lab, accessed July 11, 2025,

Preview of Modelling the Potential of Integrated Vegetation Bands (IVB) to Retain Stormwater Runoff on Steep Hillslopes of - UQ eSpace - The University of Queensland, accessed August 11, 2025

Modelling the Potential of Integrated Vegetation Bands (IVB) to Retain Stormwater Runoff on Steep Hillslopes of - UQ eSpace - The University of Queensland, accessed August 11, 2025

Contextual Support Journal

Modelling the Potential of Integrated Vegetation Bands (IVB) to Retain Stormwater Runoff on Steep Hillslopes of - UQ eSpace - The University of Queensland, accessed August 11, 2025

Preview of National Recovery Plan for White Box–Yellow Box ... - DCCEEW, accessed August 11, 2025

National Recovery Plan for White Box–Yellow Box ... - DCCEEW, accessed August 11, 2025

Contextual Support Journal

Themeda australis grasslands on the Basalt Plains

Preview of Natural Temperate Grassland of the South Eastern Highlands: a nationally protected ecological community - DCCEEW, accessed August 12, 2025,

Natural Temperate Grassland of the South Eastern Highlands: a nationally protected ecological community - DCCEEW, accessed August 12, 2025,

Contextual Support Journal

Natural Temperate Grassland of the South Eastern ... - DCCEEW

Preview of Rangeland Soil Quality: Infiltration - Natural Resources Conservation Service, accessed July 6, 2025,

Rangeland Soil Quality: Infiltration - Natural Resources Conservation Service, accessed July 6, 2025,

Contextual Support Journal

Understanding Soil Infiltration - Ideal Geotech

Preview of Rehabilitation of Grassy Box Woodland –A ... - Whitehaven Coal, accessed August 11, 2025

Rehabilitation of Grassy Box Woodland –A ... - Whitehaven Coal, accessed August 11, 2025

Contextual Support Journal

Rehabilitation of Grassy Box Woodland –A ... - Whitehaven Coal, accessed August 11, 2025

Preview of Response of Grazing Land Soil Health to Management Strategies: A Summary Review, accessed August 5, 2025,

Response of Grazing Land Soil Health to Management Strategies: A Summary Review, accessed August 5, 2025,

Contextual Support Journal

Rangeland Soil Quality: Infiltration - Natural Resources Conservation Service, accessed July 18, 2025

Preview of Soil Infiltration | Agronomic Crops Network - The Ohio State University, accessed August 11, 2025

Soil Infiltration | Agronomic Crops Network - The Ohio State University, accessed August 11, 2025

Contextual Support Journal

Soil Infiltration | Agronomic Crops Network - The Ohio State University, accessed August 11, 2025

Preview of Soil Infiltration | Agronomic Crops Network - The Ohio State University, accessed July 6, 2025,

Soil Infiltration | Agronomic Crops Network - The Ohio State University, accessed July 6, 2025,

Contextual Support Government

Farming and national environment law, accessed August 11, 2025

Preview of USDA Natural Resources Conservation Service. (n.d.). Soil Quality Indicators: Infiltration.

USDA Natural Resources Conservation Service. (n.d.). Soil Quality Indicators: Infiltration.

Contextual Support Journal

Natural Resources Conservation Service (USDA NRCS)

Context

Region Australia
Biome Temperate Grassy Woodlands & Plains
Land Use Conservation / Protected Natural Areas
Assessment Pristine Reference
Vegetation Woodland
Evidence Type HealthyOperationalRange

Lifecycle

Status Active
Version 1
Effective From 7 Jun 2026

Notes

The range encompasses values from intact perennial grasslands (25 mm/hr) to mature tree canopies (150 mm/hr), indicating a healthy mix essential for native biodiversity.

Related Benchmarks

Other benchmarks in the AUS-TGP-CON-SWI family.