Conference Theme

Innovation and research in agriculture water management to achieve sustainable development goals

Sub Theme | Question 62 What Role Can Information And Communication Technology Play In Travelling The Last Mile?

Research has given the irrigation community many new technologies and continues to deliver new and innovative approaches to how to use water in irrigation to produce more to meet the adage “more crop per drop”, whilst minimizing environmental impacts. Meeting this objective is becoming more critical as the world’s population increases and the impacts of climate change become more visible.

However, the gap between the development of these new and innovative technologies and the widespread use of these technologies in systems and management continues to grow. This ‘last mile’ must be travelled if we are to meet the growing demands of the world’s population for food and natural fibre. The efficiency with which we travel this last mile will have many components; this theme question addresses just one of these components.

Information and communication technology offer tools and systems which may be used to speed up the adoption of research and development outcomes to produce more crop per drop and to minimise the impacts of irrigation in and to the environment. There are a range of other components to the adoption process including the policy environment, financial assistance and various types of incentives (both financial and non-financial), along with social and cultural influences. Information and communication technology have a role to play in all these and the diverse communities and individuals may adopt different processes and seek potentially different step outcomes.

How can this tool be used effectively within different socio-economic environments? We need to ensure that the appropriate tools are used for the different environments in which irrigation is carried out and for the desired outcomes. Will different tools be used for different desired outcomes within the same local environment/location?

62.1: Technical – Technology Aspects

  • 62.1.1: Government Versus Non-State (private sector)
  • 62.1.2: State versus individual
  • 62.1.3: Open access platform for interchanged data streams

62.2: Social Side

  • 62.2.1: Developed versus developing countries
  • 62.2.2: Best practice, existing and possible

62.3: Using social media

  • 63.3.1: Supply chain
  • 63.3.2: Social licence
  • 63.3.3: Environmental credentials

62.4: Water trading

  • 62.4.1: Water trading exchange platforms

Sub Theme | Question 63 What Role Is Played By Multi-Disciplinary Dialogue To Achieve Sustainable Development Goals?​

In the past, research was undertaken by research organisations (universities, research focused government departments, etc.); policy development and implementation was the realm of government and their departments; ag extension was undertaken by Departments of Agriculture and Universities; and farmers and end-users were expected to just respond to the inputs from these outside of the end-use of irrigation water for crop production. Environmental impacts were only considered when they could no longer be catered for within the production system.

The insular/silo approach had its downside with agronomic research not always being relevant to the needs of the end-users, implications of policy changes not fully understood or even anticipated, adoption of new and more effective ways of crop production was often slow and farmer lead research and adoption not being recognised as pathways to improved production.

It is now recognised and better understood that that previous approach to industry extension and achieving sustainable development goals was not always effective.

Multi-disciplinary dialogue engages, by its definition, more than one discipline in design and implementation of policy, research, extension and adoption/use of processes that lead to sustainable development.

How can this multi-disciplinary approach be enhanced with improved interactions and new layers to more effectively engage in the attainment of sustainable development goals?

This Question seeks to draw out approaches that are being used and to stimulate thoughts on further enhancements to make the dialogue between all engaged in sustainable development more effective.

63.1: Social Scale Dialogue

  • 63.1.1: Family dialogue
  • 63.1.2: Local & community dialogue
  • 63.1.3: Regional dialogue
  • 63.1.5: Beyond state regional dialogue (ANZAC, EU, South Asia)
  • 63.1.6: Innovation processes in developing and developed agriculture systems and societies

63.2: Technical Level Dialogue

  • 63.2.1: Economic level
  • 63.2.2: Policy/Government level
  • 63.2.3: Legal level
  • 63.2.4: Technological (tools, devices, systems) level
  • 63.2.4: Safeguards (environment & social) level.

63.3: Addressing the 12 Sustainable Development Goals of Responsible Consumption and Production

  • 63.3.1: Supply chain
  • 63.3.2: Social licence
  • 63.3.3: Environmental credentials

Special Session Developing the future tools for managing uncertainty in irrigation water supply

Current projections around the impacts of climate change and climate variability, reinforced by ongoing experience are clear indicators that variability in rainfall, runoff, water availability and changes in the frequency of extreme weather events shall be key factors in the management of established catchments and the development of any future expansion.

Variability and the related uncertainty in availability, access to and pricing of water resources adds considerably to the risk associated with national and regional development. This further exacerbates concerns for food security and elevates pressures on healthy, viable ecosystems and services that they provide. Inevitably, increased costs and risks in the financing and socio-political commitment to maintenance of irrigation water supply systems and their further development then arise. This may then have impacts on crop mix away from staple food crops to higher return crops as farmers seek to remain viable in this high cost scenario.

Conflicting demands for water to ensure reliable supply of affordable high quality food, maintain threatened ecosystems, meet the needs of secondary industry and to satisfy the demands of increasingly urbanised populations seeking urban amenity shall require much thoughtful analysis and planning to inform and support appropriate policy and effective strategy. Likewise, this shall require the development of community education, engagement and public communications to secure broad-based support for and belief in actions which are seen to be fair, equitable and effective.

Effective future policy, regulation and practice in the development, allocation and management of water for environment, industry, human needs, urban and amenity purposes shall require deep understanding of all options, to mitigate variability in supply and quality of water supplies. This may entail the integrated use of fresh, saline and degraded resources, with the considerable complexity arising from the challenges of variability in volumes and quality of those sources, energy inputs, scale and end-user requirements.

Prior experience, ongoing R&D efforts and evolving practice should afford a sound base for addressing these future challenges and to establish strategic initiatives intended to deliver tools and approaches to the management of uncertainty in irrigation water supply.

This “Special Session” presents an opportunity to broadly scope a future approach to the very fundamental challenges at the base of all water and irrigation-dependent systems. No matter what the geography, all presenters and participants in this session should gain enormous benefit from the presentation of the diverse experiences, research and development activity, policy and regulatory approaches underpinning future adaptation and mitigation of variability in irrigation water supply.

Given above, experts/professionals are invited to submit their abstracts/papers on the following sub-topics:

Institutional Arrangements

Institutional arrangements; both standard, precautionary and emergency arrangements for allocation and pricing for water: These may include policy and regulatory arrangements for a range of water availability/security situations and emerging scenarios involving predicted or projected weather patterns, anticipated runoff, reservoir status and groundwater reserves etc.

System Modelling

System modelling, scenario planning, prediction, contingency planning for interrupted and variable supply and delivery: Presentations of such modelling should demonstrate the realistic scoping of a range of prospective scenarios (ranging from extreme wet to extreme dry), stress-test alternative management strategies to mitigate risk and manage adverse impacts to sustainability of systems and their dependent communities or businesses, and rank priority responses which can be costed in fiscal, social and environmental terms

Crop Agronomic and Social Adaptation

Crop agronomic and Social adaptation; crop choice as per irrigation,  “Supplementary” vs “full” irrigation, Economic analysis of perennial orchards and plantations as per informed decisions, and marketing, financing, staffing implications: Adaptation shall inevitably entail engagement with stakeholders across multiple fronts as catchment communities contemplate the prospects of refurbishing, replacing, relocating or even the retiring/exiting from systems and businesses. Papers are invited which demonstrate models, tools and case studies of regional and broader community consultations and engagement on irrigation water access, allocation and sustainable returns