Securing Data in Life Sciences—A Plant Food (Edamame) Systems Case Study

Duncan, Susan E.; Zhang, Bo; Thomason, Wade E.; Ellis, Margaret; Meng, Na; Stamper, Michael; Carneiro, Renata; Drape, Tiffany

doi:10.3389/frsus.2020.600394

Cited by 6 publications

(4 citation statements)

References 14 publications

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“…It is essential to incorporate statistical literacy augmented by data literacy into the early stages of the professional development of the workforce dealing with cyberbiosecurity concerns. The interdisciplinary nature of cyberbiosecurity requires communication and collaboration within the multisector system to address issues related to the privacy of data producers, ownership of original data, risks of data sharing, security protection for data transfer and storage, and public perceptions of the food supply chain (Duncan et al, 2020).…”

Section: Data Literacy As a Baseline Skill Required For Cyberbiosecuritymentioning

confidence: 99%

Understanding the Landscape of Cyberbiosecurity for Integrative Educational Programming

Adeoye,

Batarseh,

Brown

et al. 2024

Journal of the ASABE

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Highlights Alignment of terminology and community building are crucial in cyberbiosecurity. Agriculture and life sciences in a digital age present unconventional challenges. Data and digital literacy are baseline skills for integrative cyberbiosecurity education programming. Cyberbiosecurity education framework offers a foundation for intentional, integrative programming efforts. Abstract. As an emerging and interdisciplinary field at the nexus of digital technologies and agriculture and life sciences (ALS), the integration of cyberbiosecurity education for professional training and skills development remains challenging. Educational practices and related workforce development efforts associated with cyberbiosecurity may be best generalized as pseudo-shadow education, occurring outside standardized practice and lacking known ‘best practice’ to mimic. The current state of cyberbiosecurity education reflects a lack of sequenced and developed knowledge, values, judgments, and ways of thinking, which serve as windows into the underlying cultures of a disciplinary field. Coupled with this gap, the continuous deployment and convergence of information technology (IT) and operational technology (OT) within ALS creates new vulnerabilities that are unfamiliar to the workforce. These vulnerabilities expose critical ALS infrastructures to cyber-attacks and terrorism and hold significant consequences for the bioeconomy. Securing the bioeconomy and preventing negative multiplier effects in other related sectors depend on adequate cyberbiosecurity education programming and workforce development. This exploratory report of current realities and future prospects provides insights into integrative cyberbiosecurity education programming for workforce development. The study explicates underlying concerns to be addressed in developing integrative cyberbiosecurity education for professionals in agriculture and life sciences and suggests an expandable framework to facilitate workforce development programming. Concerns to address regarding the creation of educational programming in cyberbiosecurity include alignment in definition, cross-boundary community building, the peculiar dynamics of the cyberbiosecurity threat landscape, and baseline requirements for cyberbiosecurity education and practice. Keywords: Agriculture and life sciences, Bioeconomy, Cyberbiosecurity, Education and workforce development, Threat landscape.

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Section: Data Literacy As a Baseline Skill Required For Cyberbiosecuritymentioning

confidence: 99%

Understanding the Landscape of Cyberbiosecurity for Integrative Educational Programming

Adeoye,

Batarseh,

Brown

et al. 2024

Journal of the ASABE

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“…Cyber attackers and adversaries have long since had means to exploit the cyber vulnerabilities in the bioeconomy and we can expect their means to deepen. Current cyber defense and countermeasures should be reassessed to account for ongoing threat evolutions for these systems, the technologies they produce, and the companies and agencies they belong to, and this includes a wider degree of training for personnel and infrastructural upgrade considerations (Duncan et al, 2020;Jordan, 2020;Elgabry et al, 2022). If hostile actors gain access to these core biotechnology intellectual property, a number of consequences could occur; specifically, information of the technology could be leaked to the public out of context or misleadingly with the purpose providing needless or inflated wariness.…”

Section: Figure 3: Concept Web Of Influences Surrounding Ontological ...mentioning

confidence: 99%

Social-Engineering, Bio-economies, and Nation-State Ontological Security: A Commentary

Griffin¹,

Alexander

Palmer³

et al. 2023

iccws

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Biocybersecurity is an evolving discipline that aims to identify the gaps and risks associated with the convergence of Biology (the science of life and living organisms) and cybersecurity (the science, study, and theory of cyberspace and cybernetics) to protect the bioeconomy. The biological industries’ increased reliance on digitization, automation, and computing power has resulted in benefits for the scientific community, it has simultaneously multiplied the risk factors associated with industrial espionage and the protection of data both commercial and proprietary. The sensitive and potentially destructive power of this data and its access inherently poses a risk to the national and ontological security of a nation. Ontological security refers to the extent to which an individual or group feels secure in their understanding of the world and their place in it. It is a psychological concept that pertains to the way in which people construct their sense of self and their place in the world, and how this sense of self and place is shaped by their interactions with others and the broader social, cultural, and political context in which they live. Nation-states provide stability and wider social cohesion, but these capacities can be disrupted when the nation state is sufficiently threatened (Bolton, 2021). Leading to an interest in maintaining a national identity; which can have profound effects on the behavior of a nation. Targeted social engineering is aimed at exploiting the changing and damaged mental health of workers in life science enterprises who have not been trained in a sufficient manner to deal with these attacks. Failure to identify the existing vulnerabilities associated with social engineering would expose the bioeconomy to unnecessary risk. Numerous scholars have pointed towards growing risks of nation-state stability being increasingly threatened vs inadequate actions taken to match threats for defense; when reflecting on energy, food, construction materials and more from the multi-trillion US bioeconomy we see that the ground to cover is huge (George 2019, Jordan, 2020, Murch, 2018; Mueller 2021). This paper seeks to discuss some of the existing vulnerabilities associated with social engineering attacks and the effects those attacks would have on the population's ontological security and spark conversations about ways in which ontological security of nation states are modified.

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“…This is especially an issue as advanced agriculture also commonly involves information sharing for the purpose of facilitating improved data interpretation. Restricting this exchange of data complicates the design of produce generated for specific consumer demands as well as the value chain, and can ultimately heighten CBS risks (Duncan et al, 2020). CBS risks in this field are numerous and increasing every day as technological developments continue to be implemented.…”

Section: Introductionmentioning

confidence: 99%

Implications of Cyberbiosecurity in Advanced Agriculture

Stephen

Alexander

Potter

et al. 2023

iccws

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The world is currently undergoing a rapid digital transformation sometimes referred to as the fourth industrial revolution. During this transformation, it is increasingly clear that many scientific fields are not prepared for this change. One specific area is agriculture. As the sector which creates global food supply, this critical infrastructure requires detailed assessment and research via newly developed technologies (Millett et al, 2019; Peccoud et al, 2018) . Despite its fundamental significance to modern civilization, many aspects of industrial agriculture have not yet adapted to the digital world. This is evident in the many vulnerabilities currently present within agricultural systems, as well as the lacking and fragmented nature of policy dictating cybersecurity stances– the field which intersects both cybersecurity and biosecurity to protect several areas within life sciences (Murch et al, 2018; Duncan et al, 2019; U.S. Department of Agriculture, 2022) . These looming oversights create dangers to advanced agricultural systems, which in turn poses risk to businesses, economies, and individuals. While there are various methods to reduce these risk factors, they ultimately depend on the careful consideration of cyberbiosecurity (CBS) by all involved. This includes the system developers, equipment engineers, and especially the end users - all of us. A conscientious team-effort can work to diminish risks and ultimately provide a safer environment for advanced agriculture and all who depend on it. This analysis explores numerous vulnerabilities within the system of advanced agriculture, discusses potential solutions to the escalating risks they present, and considers the achievable future of an advanced agricultural system which further implements the role of CBS.

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Securing Data in Life Sciences—A Plant Food (Edamame) Systems Case Study

Cited by 6 publications

References 14 publications

Understanding the Landscape of Cyberbiosecurity for Integrative Educational Programming

Understanding the Landscape of Cyberbiosecurity for Integrative Educational Programming

Social-Engineering, Bio-economies, and Nation-State Ontological Security: A Commentary

Implications of Cyberbiosecurity in Advanced Agriculture

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