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| Main Authors: | , |
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| Format: | Recurso digital |
| Jezik: | angleščina |
| Izdano: |
Zenodo
2025
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| Teme: | |
| Online dostop: | https://doi.org/10.5281/zenodo.18104285 |
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- <p>This paper proposes a fundamental reconceptualisation of arboviral disease<br>management in the Australian cattle industry through the adaptation of the<br>Homeostatic Architectural and Terrain Immunity (HATI) framework to pastoral<br>contexts. Current approaches to Bovine Ephemeral Fever (BEF) and Akabane Virus<br>management operate within what this paper terms the "Steelman Paradigm"—a<br>reactive economic threshold model that accepts chronic vector pressure and<br>cumulative physiological stress ("Biological Debt") as baseline conditions until<br>intervention becomes economically justified. This paper proposes an alternative<br>"Landscape Immunity Model" that reconceptualises the pastoral landscape itself as<br>an immunological system capable of permanent vector suppression through Botanical<br>Architecture (strategic plantings for wind channelling and olfactory masking),<br>Biological Control (integrated predator guilds and dung beetle populations), and<br>Sovereign Technology (offline, renewable, locally-repairable systems including solar<br>aeration and edge-computing AI monitors). The framework prioritises collaborative<br>homeostasis over toxic eradication, protecting soil biology, herd welfare, and long-<br>term ecological resilience. This work extends the HATI principles originally<br>developed for human malaria vector management in Oceania to demonstrate the<br>framework's adaptability across species boundaries and ecological contexts, offering<br>a proof-of-concept for what the author terms "Ideas Philanthropy"—the release of<br>conceptual architectures under open licensing for community-driven implementation.<br>Keywords: ecological homeostasis; vector-borne disease; bovine ephemeral fever; Akabane<br>virus; biological control; landscape immunity; sovereign technology; pastoral systems; HATI<br>framework; Biological Deb</p>