Emanuelson, Ulf
- Department of Clinical Sciences, Swedish University of Agricultural Sciences
Research article2018Peer reviewedOpen access
Krieger, M.; Schwabenbauer, E. -M.; Hoischen-Taubner, S.; Emanuelson, U.; Sundrum, A.
Production diseases in dairy cows are multifactorial, which means they emerge from complex interactions between many different farm variables. Variables with a large impact on production diseases can be identified for groups of farms using statistical models, but these methods cannot be used to identify highly influential variables in individual farms. This, however, is necessary for herd health planning, because farm conditions and associated health problems vary largely between farms. The aim of this study was to rank variables according to their anticipated effect on production diseases on the farm level by applying a graph-based impact analysis on 192 European organic dairy farms. Direct impacts between 13 pre-defined variables were estimated for each farm during a round-table discussion attended by practitioners, that is farmer, veterinarian and herd advisor. Indirect impacts were elaborated through graph analysis taking into account impact strengths. Across farms, factors supposedly exerting the most influence on production diseases were feeding', hygiene' and treatment' (direct impacts), as well as knowledge and skills' and herd health monitoring' (indirect impacts). Factors strongly influenced by production diseases were milk performance', financial resources' and labour capacity' (directly and indirectly). Ranking of variables on the farm level revealed considerable differences between farms in terms of their most influential and most influenced farm factors. Consequently, very different strategies may be required to reduce production diseases in these farms. The method is based on perceptions and estimations and thus prone to errors. From our point of view, however, this weakness is clearly outweighed by the ability to assess and to analyse farm-specific relationships and thus to complement general knowledge with contextual knowledge. Therefore, we conclude that graph-based impact analysis represents a promising decision support tool for herd health planning. The next steps include testing the method using more specific and problem-oriented variables as well as evaluating its effectiveness.
dairy cow; animal health; system analysis; decision making; impact matrix
Animal
2018, Volume: 12, number: 3, pages: 624-633 Publisher: CAMBRIDGE UNIV PRESS
Clinical Science
DOI: https://doi.org/10.1017/S1751731117002105
https://res.slu.se/id/publ/96520