Dr Yash Dang
Dr

Yash Dang

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Background

Dr Yash Dang is Principal Research Fellow at The University of Queensland possess extensive experience in soil and nutrient management. He is currently leading a national project on low cost carbon stock estimation using proximal and remote sensing. He is also leading the northern grains region in national GRDC projects to identify and manage soil constraints, conservation agriculture, strategic tillage and sustainable land management practices. While his research spans in the areas of crop production, much of his research focuses on soil constraints. He has also coordinated soil carbon and soil quality projects in Queensland cropping soils. Yash has great faith in engagement with the farmers to develop collaborative, participatory research project to address soil health issues. He also has strong interest in proximal and remote sensing to identify constraints at farm and national scales for site-specific soil and nutrient management.

Availability

Dr Yash Dang is:
Available for supervision
Media expert

Qualifications

  • Doctor of Philosophy, The University of Queensland

Research interests

  • Identification and management of soil constraints

    Soil salinity, sodicity, acidity, and alkalinity, elemental toxicities such as boron, chloride and aluminium and compaction are important soil constraints to agricultural sustainability in many soils of Australia. Estimating the severity of soil constraints, and their impact on plant productivity and management is a very complex issue. Several soil properties in the surface and subsoil interact with each other to determine the local environment for root growth at a given time. Rarely do the various soil stresses occur independently. Moreover, variable distribution of soil constraints, both spatially within a paddock, across the landscape and with depth in the soil profile, and the complex interactions that exist among the various physio-chemical constraints, make it difficult to determine which stress is the major limitation to crop production. Grains Research Development Corporation projects are helping growers identify soil constraints using proximal sensing and remote sensing and manage soil constraints through amelioration, crops and cultivars adaptation and/or matching inputs to the realistic potential yield in the presence of soil constraints.

  • Conservation agriculture for sustainable crop production and land management

    No-tillage (NT), stubble retention (SR) and crop rotation component of conservation farming systems offer a wide range of economic, environmental and social advantages compared to conventional tillage (CT) which involves intensive disturbance of soils prior to crop sowing. Hermitage long-term NT- SR experiment initiated in 1968 is the longest continuing trial in Australia. The project quantify the impact of continuous NT-SR and nitrogen on productivity, profitability and soil health.

  • Strategic tillage in no-till farming systems

    Adoption of no-till (NT) has progressed steadily, there are still situations and attitudes that hinder adoption of what are seen as rigid systems. These concerns have been enhanced by the emergence of five major issues in long term NT systems - (i) build-up of soil- and stubble-borne diseases; (ii) build-up of herbicide-resistant weeds; (iii) nutrient stratification in the surface soil; (iv) build-up of soil insect; and (v) environment and health concerns about the effects of herbicides on- and off-site. An occasional strategic tillage (ST) has been used as a means to manage some of the specific issues emerging in NT farming systems. However, growers who practise strict NT systems are concerned that even one-time tillage operation may undo much of the positive effect of NT farming systems on soil conditions. Those promoting ideas of strictly no soil disturbance predict irreparable damage to soil from occasional ST. The industry driven project identify (i) the need for ST in NT farming systems; (ii) strategies for the safe implementation of ST in NT systems, and (iii) the potential risks and rewards of occasional ST on agronomic outcomes, soil health and the environment.

Search Professor Yash Dang’s works on UQ eSpace

146 works between 1993 and 2025
All (146) Journal Article (102) Book Chapter (11) Conference Publication (17) Book (4) Other Outputs (12)

81 - 100 of 146 works

2019

Book Chapter

Advances in crop residue management

Flower, Ken C., Dang, Yash and Ward, Phil (2019). Advances in crop residue management. Australian Agriculture in 2020: From Conservation to Automation. (pp. 137-149) edited by J. Pratley and J. Kirkegaard. Wagga Wagga, NSW Australia: Agronomy Australia.

Advances in crop residue management

2019

Conference Publication

Using EM38 at the crop lower limit to identify subsoil constraints for site-specific management

Dang, Yash and Dalal, Ram (2019). Using EM38 at the crop lower limit to identify subsoil constraints for site-specific management. GRDC Grains Research Update , Goondiwindi, QLD, Australia, 5-6 March 2019. Sydney, NSW Australia: Grains Research Development Corporation.

Using EM38 at the crop lower limit to identify subsoil constraints for site-specific management

2019

Conference Publication

Assessing the use efficiency of Enhanced Efficiency Nitrogen Fertilisers (EENFs) in irrigated maize

Martinez, Cristina, Dang, Yash, Smith, Daniel and Bell, Mike (2019). Assessing the use efficiency of Enhanced Efficiency Nitrogen Fertilisers (EENFs) in irrigated maize. TropAg2019, Brisbane, Australia, 11-13 November 2019.

Assessing the use efficiency of Enhanced Efficiency Nitrogen Fertilisers (EENFs) in irrigated maize

2019

Conference Publication

Wheat varietal tolerance to sodicity with variable subsoil constraints

Dang, Yash, Christopher, Jack , Anzooman, Monia, Choudhury, Malini Roy and Menzies, Neal (2019). Wheat varietal tolerance to sodicity with variable subsoil constraints. GRDC Grains Research Update, Goondiwindi, QLD Australia, 5-6 March 2019. Sydney, NSW Australia: Grains Research Development Corporation.

Wheat varietal tolerance to sodicity with variable subsoil constraints

2019

Book Chapter

Evolution of conservation agriculture in summer rainfall areas

Serafin, Loretta, Dang, Yash, Freebairn, David and Rodriguez, Daniel (2019). Evolution of conservation agriculture in summer rainfall areas. Australian Agriculture in 2020: From Conservation to Automation. (pp. 65-78) edited by J. Pratley and J. Kirkegaard. Wagga Wagga, NSW Australia: Agronomy Australia.

Evolution of conservation agriculture in summer rainfall areas

2019

Conference Publication

Understanding the physiological basis for improved wheat seedling growth on dispersive sodic soils

Anzooman, Monia, Dang, Yash, Christopher, Jack , Kopittke, Peter and Menzies, Neal (2019). Understanding the physiological basis for improved wheat seedling growth on dispersive sodic soils. GRDC Grains Research Update , Goondiwindi, QLD, Australia, 5-6 March 2019. Sydney, NSW Australia: Grains Research Development Corporation.

Understanding the physiological basis for improved wheat seedling growth on dispersive sodic soils

2019

Conference Publication

Improving wheat yields on sodic, magnesic and dispersive soils

Dang, Yash (2019). Improving wheat yields on sodic, magnesic and dispersive soils. GRDC Soils Annual Forum, Toowoomba, QLD, Australia, 30-31 July 2019. Canberra, ACT, Australia: GRDC.

Improving wheat yields on sodic, magnesic and dispersive soils

2019

Book Chapter

Strategic tillage within conservation farming

Conyers, Mark, Dang, Yash P. and Kirkegaard, John (2019). Strategic tillage within conservation farming. Australian agriculture in 2020: from conservation to automation. (pp. 107-115) edited by J. Pratley and J. Kirkegaard. Wagga Wagga, NSW Australia: Agronomy Australia.

Strategic tillage within conservation farming

2019

Conference Publication

Improving yield on sodic soil: assessing the value of genetic improvement

Schilling, R.K., Taylor, J., Armstrong, R., Christopher, J., Dang, Y. and McDonald, G.K. (2019). Improving yield on sodic soil: assessing the value of genetic improvement. Agronomy Society Australia, Wagga Wagga, NSW, Australia, 25-29 August 2019. Wagga Wagga, NSW, Australia: Australian Society Agronomy.

Improving yield on sodic soil: assessing the value of genetic improvement

2018

Journal Article

Dataset on seed details of wheat genotypes, solution treatments to measure seedling emergence force and the relation between seedling force and strain

Anzooman, Monia, Dang, Yash P., Christopher, Jack, Mumford, Michael H., Menzies, Neal W. and Kopittke, Peter M. (2018). Dataset on seed details of wheat genotypes, solution treatments to measure seedling emergence force and the relation between seedling force and strain. Data in Brief, 21, 1598-1602. doi: 10.1016/j.dib.2018.10.134

Dataset on seed details of wheat genotypes, solution treatments to measure seedling emergence force and the relation between seedling force and strain

2018

Journal Article

Management of the major chemical soil constraints affecting yields in the grain growing region of Queensland and New South Wales, Australia – a review

Page, K. L., Dalal, R. C., Wehr, J. B., Dang, Y. P., Kopittke, P. M., Kirchhof, G., Fujinuma, R. and Menzies, N. W. (2018). Management of the major chemical soil constraints affecting yields in the grain growing region of Queensland and New South Wales, Australia – a review. Soil Research, 56 (8), 765-779. doi: 10.1071/sr18233

Management of the major chemical soil constraints affecting yields in the grain growing region of Queensland and New South Wales, Australia – a review

2018

Journal Article

An empirical model for prediction of wheat yield, using time-integrated Landsat NDVI

Lai, Y.R., Pringle, M.J., Kopittke, P.M., Menzies, N.W., Orton, T.G. and Dang, Y.P. (2018). An empirical model for prediction of wheat yield, using time-integrated Landsat NDVI. International Journal of Applied Earth Observation and Geoinformation, 72, 99-108. doi: 10.1016/j.jag.2018.07.013

An empirical model for prediction of wheat yield, using time-integrated Landsat NDVI

2018

Journal Article

Quantifying the economic impact of soil constraints on Australian agriculture: a case study of wheat

Orton, Thomas G., Mallawaarachchi, Thilak, Pringle, Matthew J., Menzies, Neal W., Dalal, Ram C., Kopittke, Peter M., Searle, Ross, Hochman, Zvi and Dang, Yash P. (2018). Quantifying the economic impact of soil constraints on Australian agriculture: a case study of wheat. Land Degradation & Development, 29 (11), 3866-3875. doi: 10.1002/ldr.3130

Quantifying the economic impact of soil constraints on Australian agriculture: a case study of wheat

2018

Journal Article

Selection for rapid germination and emergence may improve wheat seedling establishment in the presence of soil surface crusts

Anzooman, Monia, Christopher, Jack, Mumford, Michael, Dang, Yash P., Menzies, Neal W. and Kopittke, Peter M. (2018). Selection for rapid germination and emergence may improve wheat seedling establishment in the presence of soil surface crusts. Plant and Soil, 426 (1-2), 227-239. doi: 10.1007/s11104-018-3609-6

Selection for rapid germination and emergence may improve wheat seedling establishment in the presence of soil surface crusts

2018

Journal Article

The influence of tillage frequency on crop productivity in sub-tropical to semi-arid climates

Crawford, Mark H., Bell, K., Kodur, S. and Dang, Y. P. (2018). The influence of tillage frequency on crop productivity in sub-tropical to semi-arid climates. Journal of Crop Science and Biotechnology, 21 (1), 13-22. doi: 10.1007/s12892-017-0044-0

The influence of tillage frequency on crop productivity in sub-tropical to semi-arid climates

2018

Journal Article

Can Cultivation Be Part Of A No-Till Farming System?

Dang, Yash (2018). Can Cultivation Be Part Of A No-Till Farming System?. Science Trends doi: 10.31988/scitrends.10621

Can Cultivation Be Part Of A No-Till Farming System?

2018

Other Outputs

Costs of soil-induced stress to the Australian grains industry

Dang, Yash and Moody, Phil (2018). Costs of soil-induced stress to the Australian grains industry. Canberra, ACT, Australia: Grains Research and Development Corporation.

Costs of soil-induced stress to the Australian grains industry

2018

Conference Publication

Quantifying forfeited wheat yield due to soil sodicity in high, moderate and low rainfall conditions in the northern grains region of Australia

Lai, Y.R., Pringle, M.J., Kopittke, Peter M., Menzies, Neal W., Orton, T.G. and Dang, Y.P. (2018). Quantifying forfeited wheat yield due to soil sodicity in high, moderate and low rainfall conditions in the northern grains region of Australia. 21st World Congress of Soil Science, Rio de Janeiro, Brazil, 12-17 August 2018.

Quantifying forfeited wheat yield due to soil sodicity in high, moderate and low rainfall conditions in the northern grains region of Australia

2018

Journal Article

Greater emergence force and hypocotyl cross sectional area may improve wheat seedling emergence in sodic conditions

Anzooman, Monia, Dang, Yash P., Christopher, Jack, Mumford, Michael H., Menzies, Neal W. and Kopittke, Peter M. (2018). Greater emergence force and hypocotyl cross sectional area may improve wheat seedling emergence in sodic conditions. Plant Science, 277, 188-195. doi: 10.1016/j.plantsci.2018.09.007

Greater emergence force and hypocotyl cross sectional area may improve wheat seedling emergence in sodic conditions

2018

Conference Publication

Advanced techniques for managing subsoil constraints

Dang, Yash (2018). Advanced techniques for managing subsoil constraints. GRDC Soils Annual Forum, Perth, WA Australia, 30-31 July 2018. Canberra, ACT Australia: GRDC.

Advanced techniques for managing subsoil constraints

Current funding

  • 2024 - 2028
    Enhancing soil health and climate resilience in the Northern Territory
    Climate-Smart Agriculture Program ¿ Capacity Building
    Open grant
  • 2024 - 2028
    Enhanced efficiency nitrogen fertilisers in the grains industry: an opportunity to reduce Greenhouse Gas emissions and increase Nitrogen Use Efficiency (GRDC funded project led by UoM)
    University of Melbourne
    Open grant
  • 2023 - 2026
    Understanding crop development and yield responses to mitigate high soil strength in Australian soils
    GRDC - PROC-9176764 - Understanding crop development and yield responses to mitigate high soil strength in Australian soils.
    Open grant
  • 2023 - 2025
    Proximal and remote sensing for low-cost soil carbon stock estimation
    Commonwealth Department of Industry, Science, Energy and Resources
    Open grant
  • 2023 - 2027
    Analytics for the Australian Grains Industry (AAGI)
    Grains Research & Development Corporation
    Open grant
  • 2022 - 2026
    Predicting nitrogen cycling and losses in Australian cropping systems - augmenting measurements to enhance modelling
    Grains Research & Development Corporation
    Open grant

Past funding

  • 2022 - 2024
    Improving the drought resilience of Queensland cropping soils by removing barriers to the identification and management of soil constraints
    Future Drought Fund: Drought Resilient Soils and Landscapes Grants
    Open grant
  • 2021 - 2023
    Carbon ID: A remote sensing decision support tool to identify the impact of agricultural land management on soil carbon stock
    Queensland Department of Agriculture and Fisheries
    Open grant
  • 2020 - 2022
    AgAsk: A machine learning generated question-answering conversational agent for data-driven growing decisions.
    Grains Research & Development Corporation
    Open grant
  • 2020 - 2024
    CropPhen: Remote mapping of grain crop type and phenology
    Grains Research & Development Corporation
    Open grant
  • 2020 - 2022
    Machine learning to extract maximum value from soil and crop variability (GRDC project administered by The University of Adelaide).
    University of Adelaide
    Open grant
  • 2018 - 2022
    Economics of ameliorating soil constraints in the Northern Region: Program co-ordination, communication, extension and evaluation (Project D)
    Grains Research & Development Corporation
    Open grant
  • 2018 - 2022
    Economics of ameliorating soil constraints in the Northern Region: Spatial soil constraint diagnoses in the northern region (Project A)
    Grains Research & Development Corporation
    Open grant
  • 2016 - 2017
    Identification and management of acid soils in Southern Queensland
    Cambooya Landcare Association Incorporated
    Open grant
  • 2015 - 2017
    Costs of edaphic stress to the Australian grains industry
    Grains Research & Development Corporation
    Open grant
  • 2015 - 2016
    GRDC Soil Constraints Initiative - coordination and communication
    Queensland Government Department of Science, Information Technology, Innovation and the Arts
    Open grant
  • 2015 - 2021
    Improving wheat yields on sodic, magnesic, and dispersive soils (Grains Research and Development Corporation grant administered by the University of Adelaide)
    University of Adelaide
    Open grant
  • 2015 - 2016
    GRDC soil constraints - Management of sodic and magnesic soils
    Queensland Government Department of Science, Information Technology, Innovation and the Arts
    Open grant
  • 2014 - 2015
    Does strategic tillage undo long term improvement in soils under no-till?
    Grains Research & Development Corporation
    Open grant

Availability

Dr Yash Dang is:
Available for supervision

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Available projects

  • Management of sodic, magnesic or dispersive soils

  • Soil-Crop Variability

  • Crop Phenotyping

  • Spatial diagnosis of soil constraints

  • Root traits for crop adaptation in soil constraints

Supervision history

Current supervision

Completed supervision

Enquiries

Contact Dr Yash Dang directly for media enquiries about:

  • no-tillage
  • sodicity
  • soil constraints
  • strategic tillage

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