Tim Wark scite author profile

Remote monitoring of animal behaviour in the environment can assist in managing both the animal and its environmental impact. GPS collars which record animal locations with high temporal frequency allow researchers to monitor both animal behaviour and interactions with the environment. These ground-based sensors can be combined with remotely-sensed satellite images to understand animal-landscape interactions. The key to combining these technologies is communication methods such as wireless sensor networks (WSNs). We explore this concept using a case-study from an extensive cattle enterprise in northern Australia and demonstrate the potential for combining GPS collars and satellite images in a WSN to monitor behavioural preferences and social behaviour of cattle.

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Transforming Agriculture through Pervasive Wireless Sensor Networks

Wark

Corke

Sikka

et al. 2007

IEEE Pervasive Comput.

306

139

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Network analysis reveals that bacteria and fungi form modules that correlate independently with soil parameters

Menezes

Prendergast-Miller

Richardson

et al. 2014

Environmental Microbiology

177

101

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Network and multivariate statistical analyses were performed to determine interactions between bacterial and fungal community terminal restriction length polymorphisms as well as soil properties in paired woodland and pasture sites. Canonical correspondence analysis (CCA) revealed that shifts in woodland community composition correlated with soil dissolved organic carbon, while changes in pasture community composition correlated with moisture, nitrogen and phosphorus. Weighted correlation network analysis detected two distinct microbial modules per land use. Bacterial and fungal ribotypes did not group separately, rather all modules comprised of both bacterial and fungal ribotypes. Woodland modules had a similar fungal : bacterial ribotype ratio, while in the pasture, one module was fungal dominated. There was no correspondence between pasture and woodland modules in their ribotype composition. The modules had different relationships to soil variables, and these contrasts were not detected without the use of network analysis. This study demonstrated that fungi and bacteria, components of the soil microbial communities usually treated as separate functional groups as in a CCA approach, were co-correlated and formed distinct associations in these adjacent habitats. Understanding these distinct modular associations may shed more light on their niche space in the soil environment, and allow a more realistic description of soil microbial ecology and function.

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A Wireless Sensor Network for Real-Time Indoor Localisation and Motion Monitoring

2008

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Tim Wark

Environmental Wireless Sensor Networks

Monitoring Animal Behaviour and Environmental Interactions Using Wireless Sensor Networks, GPS Collars and Satellite Remote Sensing

Transforming Agriculture through Pervasive Wireless Sensor Networks

Network analysis reveals that bacteria and fungi form modules that correlate independently with soil parameters

A Wireless Sensor Network for Real-Time Indoor Localisation and Motion Monitoring

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