181 Harnessing staff values to catalyse workplace change

Audhali, Nadia; Moore, Anna; Martin, Tim; Munro, Charlotte; Wedmore, Florence

doi:10.1136/leader-2020-fmlm.181

Cited by 2 publications

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“…There is growing interest in human health fields in ensuring the integration of air quality and health [38], soil pollution and health [39] etc., on increasingly granular spatial scales. The UK's National Health Service [40] is a world-leader in setting a Green Agenda for Health [41], aiming towards net-zero carbon operations by 2040. This approach has been as dependent on earth science as it has on approaches that have come from inside health systems and medical science.…”

Section: Mapping the Spatial Distribution Of The Conditions That Driv...mentioning

confidence: 99%

Tackling AMR: A Call for a(n Even) More Integrated and Transdisciplinary Approach between Planetary Health and Earth Scientists

2022

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Antibiotic resistance is a pressing global, one health and planetary health challenge. Links between climate change, antibiotic use, and the emergence of antibiotic resistance have been well documented, but less attention has been given to the impact(s) of earth systems on specific bacterial livestock diseases at a more granular level. Understanding the precise impacts of climate change on livestock health—and in turn the use of antibiotics to address that ill-health—is important in providing an evidence base from which to tackle such impacts and to develop practical, implementable, and locally acceptable solutions within and beyond current antibiotic stewardship programs. In this paper, we set out the case for better integration of earth scientists and their specific disciplinary skill set (specifically, problem-solving with incomplete/fragmentary data; the ability to work across four dimensions and at the interface between the present and deep/geological time) into planetary health research. Then, using a case study from our own research, we discuss a methodology that makes use of risk mapping, a common methodology in earth science but less frequently used in health science, to map disease risk against changing climatic conditions at a granular level. The aim of this exercise is to argue that, by enabling livestock farmers, veterinarians, and animal health observatories to better predict future disease risk and risk impacts based on predicted future climate conditions, earth science can help to provide an evidence base from which to influence policy and develop mitigations. Our example—of climate conditions’ impact on livestock health in Karnataka, India—clearly evidences the benefit of integrating earth scientists into planetary health research.

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Section: Mapping the Spatial Distribution Of The Conditions That Driv...mentioning

confidence: 99%

Tackling AMR: A Call for a(n Even) More Integrated and Transdisciplinary Approach between Planetary Health and Earth Scientists

2022

View full text Add to dashboard Cite

show abstract

“…There is growing interest in human health fields in ensuring the integration of air quality and health [36], soil pollution and health [37] etc, on increasingly granular spatial scales. The UK's National Health Service [38] is a world-leader in setting a Green Agenda for health [39], aiming towards net-zero carbon operations by 2040, and this has, at least in part, been achieved by showing that improving public health cannot be considered without the integrated reform of transport systems, renewable energy and consideration of reduced plastic use [39]. This approach has been as dependent on earth science as it has on approaches that have come from inside health systems and medical science.…”

Section: Mapping the Spatial Distribution Of The Conditions That Driv...mentioning

confidence: 99%

Tackling AMR: a call for a(n even) more integrated and transdisciplinary approach between planetary health and earth scientists

Cole¹,

Eskdale²,

Paul³

2022

Preprint

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Antibiotic resistance is a pressing global and planetary health challenge. Links between climate change, antibiotic use and the emergence of antibiotic resistance have been well documented, but less attention has been given to the impact(s) of earth systems on specific bacterial livestock diseases at a more granular level. Understanding the precise impacts of climate change on livestock health – and in turn the use of antibiotics to address that ill-health – is important in providing an evidence base to tackle such impacts and to develop practical, implementable and locally acceptable solutions within and beyond current antibiotic stewardship programmes. In this paper, we set out the case for better integration of earth scientists and their specific disciplinary skill set (specifically, problem-solving with incomplete/fragmentary data; the ability to work across four dimensions and at the interface between the present and deep/geological time) into planetary health research. We then discuss a methodology that makes use of risk mapping, a common methodology in earth science but less frequently used in health science, to map disease risk against changing climatic conditions at a granular level. This will enable predictions of future disease risk and risk impacts based on predicted future climate conditions, and thus provide an evidence base for planetary health activists to influence policy and develop mitigations. Our case study – of climate conditions’ impact on livestock health in Karnataka, India – clearly evidences the benefit of integrating earth scientists into planetary health research.

show abstract

181 Harnessing staff values to catalyse workplace change

Cited by 2 publications

References 0 publications

Tackling AMR: A Call for a(n Even) More Integrated and Transdisciplinary Approach between Planetary Health and Earth Scientists

Tackling AMR: A Call for a(n Even) More Integrated and Transdisciplinary Approach between Planetary Health and Earth Scientists

Tackling AMR: a call for a(n even) more integrated and transdisciplinary approach between planetary health and earth scientists

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