Identifying behavioural patterns of coupled water‐agriculture systems using system archetypes

Nyam, Yong Sebastian; Kotir, Julius H.; Jordaan, Andries; Ogundeji, Abiodun A.

doi:10.1002/sres.2753

Cited by 8 publications

(5 citation statements)

References 83 publications

(119 reference statements)

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“…In particular, archetypes constitute a toolset of templates that can be used to explain common long‐term problematic behaviours from a systemic perspective to assist in identifying interventions that could create a pivotal change in the system's state (Kim, 2000; Senge, 1990). Indicatively, several archetypes have been already employed to describe production patterns in complex agricultural systems (Banson et al, 2016; Nyam et al, 2020). The ultimate goal of ST is to unveil the ‘mental models' level’ (Doyle & Ford, 1998; Senge, 1992), namely, the compilation of values and perceptions (either conscious or unconscious) of both decision‐makers (e.g., farmers) and operators (e.g., land workers) that set up the complex system structure.…”

Section: Methodological Approachmentioning

confidence: 99%

“…Notably, the combination of the counterbalancing feedback loops R1 (reinforcing) and B3 (balancing) generates the so‐called ‘limits to growth (or success)’ archetype (Kim, 2000; Meadows, 2009); this system archetype reflects how an initial improvement of performance due to systematic efforts can be decelerated or even declined due to eventual limiting factors (Nyam et al, 2020). Thus, the cumulative effect of continuous growth may induce future problems.…”

Section: Conceptual Model Buildingmentioning

confidence: 99%

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Transitioning towards human–robot synergy in agriculture: A systems thinking perspective

Aivazidou

Tsolakis

2022

Syst Res Behav Sci

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Digital transformation has unveiled new prospects for increased performance and productivity in the agricultural sector to meet rising food security needs. Continuous industrialization and unexpected disruptions (e.g., workforce mobility restrictions due to the COVID‐19 pandemic) call for the adoption of agricultural robots. However, automated solutions could be associated with societal challenges in rural areas; unemployment growth has been perceived as a major threat that jeopardizes societal welfare, potentially hindering the implementation of digital technologies. In this context, human–robot synergistic systems could act as a promising socially viable alternative. Through systems thinking, this research investigates the complex interconnections and key feedback mechanisms of automation diffusion (conventional and human–robot interactive) under the socio‐economic perceptions (drivers and barriers) of agribusinesses and rural communities. Overall, this study contributes towards eliciting the mental models that underpin the transition from agricultural robots to human–robot collaboration by transforming automation‐related societal risks into opportunities for sustainable rural development.

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Section: Methodological Approachmentioning

confidence: 99%

Section: Conceptual Model Buildingmentioning

confidence: 99%

Transitioning towards human–robot synergy in agriculture: A systems thinking perspective

Aivazidou

Tsolakis

2022

Syst Res Behav Sci

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“…Studies on agriculture and farming systems (Banson et al 2016, Sharif and Irani 2016, Brzezina et al 2017, Neudert et al 2019, Nyam et al 2022 have applied system archetypes to identify systemic problems and to propose solutions to achieve desired outcomes. System archetypes applied to agriculture and farming systems draw insights into root causes and underlying interacting mechanisms driving unsustainable outcomes (Neudert et al 2019, Nyam et al 2022.…”

Section: Archetype Analysismentioning

confidence: 99%

Identifying system archetypes in Nigeria’s rice agri-food system using fuzzy cognitive mapping

Edwards¹,

Kok²,

Leemans³

2023

E&S

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Nigeria is a major rice-producing and rice-importing country in Africa, challenged with ensuring rice-food security for its growing population. Successive governments have implemented several strategies to increase local rice production such as rice import restriction policies and agricultural investments. These strategies have yielded results but achieving long-term sustainable growth in Nigeria's rice agri-food system has remained elusive. Addressing food security and sustainability in agri-food systems requires a systemsthinking approach. In this study, we applied two systems thinking techniques, fuzzy cognitive mapping (for describing the system structure and behavior) and archetype analysis (to reveal generic system archetypes and effective strategies to improve the system). Our analysis revealed three system archetypes: limits to success, fixes that fail, and drifting goals. Rice production is limited by low agricultural productivity indicating the "limits to success" archetype. Farmers tend to increase rice area as a "quick fix" to productivity issues but this quick fix leads to unintended consequences such as soil degradation (fixes that fail archetype). Additionally, because of the importrestriction policies generating an unmet demand for rice, the government may face pressure to lower the goal of self-sufficiency falling into the "drifting goals" archetype. However, our analysis shows that suspending import-restriction policies would result in undesirable system states, with reduced demand for local rice and lower rice production. Our results underscore the importance of government policies in increasing rice production sustainably and ensuring food security.

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“…Furthermore, other researchers, including Gohari et al (2017), Masike (2011), Nassery et al (2014), Shahbazbegian and Bagheri (2010) and Soltani and Alizade (2018), applied dynamic systems modelling to study issues related to water such as the effects of drought, water shortage conditions, water resource management, allowable groundwater extraction from the aquifer and sustainable development of water resources. Nyam et al (2020) highlighted four system archetypes that influenced water and agricultural development policies in South Africa. Furthermore, Baiyegunhi and Fraser (2011) and Teimouri (2014) studied the scenario model to reduce the vulnerability of rural households and farmers to poverty and drought, respectively.…”

Section: Literature Reviewmentioning

confidence: 99%

“…investigated several strategies proposed by professionals to restore Urmia Lake. The finding indicated that changing the irrigation system, paying the compensation to farmers and changing the cultivation pattern were considered the most successful strategies.Furthermore, other researchers, includingGohari et al (2017),Masike (2011),Nassery et al (2014),Shahbazbegian and Bagheri (2010) andSoltani and Alizade (2018), applied dynamic systems modelling to study issues related to water such as the effects of drought, water shortage conditions, water resource management, allowable groundwater extraction from the aquifer and sustainable development of water resources Nyam et al (2020). highlighted four system archetypes that influenced water and agricultural development policies in South Africa.…”

mentioning

confidence: 99%

Application of community‐based system dynamics for the management of rural households' vulnerability to the drying of Urmia Lake

et al. 2022

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The drying of Urmia Lake, the largest inland lake in Iran, is one of the greatest ecological disasters in Iran, and it was repeatedly included on the agenda of national and international conventions. The aim of the current study was to apply the system dynamics methodology to analyse rural households' vulnerability to the Urmia Lake drying. The result of the first phase (strategy collection) indicated that five strategies were proposed by stakeholders: ‘To reduce the population of the region’, ‘To reduce the crop area and agricultural activities’, ‘To modify the cultivation pattern and growing crops with low water needs’, ‘To use new irrigation systems’ and ‘To create alternative agricultural livelihoods with less dependence on damaged resources’. The second phase used Vensim software and indicated that the best strategy to reduce households' vulnerability to the drying of Urmia Lake was ‘To create alternative agricultural livelihoods with less dependence on damaged resources’.

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Identifying behavioural patterns of coupled water‐agriculture systems using system archetypes

Cited by 8 publications

References 83 publications

Transitioning towards human–robot synergy in agriculture: A systems thinking perspective

Transitioning towards human–robot synergy in agriculture: A systems thinking perspective

Identifying system archetypes in Nigeria’s rice agri-food system using fuzzy cognitive mapping

Application of community‐based system dynamics for the management of rural households' vulnerability to the drying of Urmia Lake

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