James Cook University

About: James Cook University is a education organization based out in Townsville, Queensland, Australia. It is known for research contribution in the topics: Population & Coral reef. The organization has 9101 authors who have published 27750 publications receiving 1032608 citations. The organization is also known as: JCU.

A selective review of advances in coccidiosis research.

Abstract: Coccidiosis is a widespread and economically significant disease of livestock caused by protozoan parasites of the genus Eimeria. This disease is worldwide in occurrence and costs the animal agricultural industry many millions of dollars to control. In recent years, the modern tools of molecular biology, biochemistry, cell biology and immunology have been used to expand greatly our knowledge of these parasites and the disease they cause. Such studies are essential if we are to develop new means for the control of coccidiosis. In this chapter, selective aspects of the biology of these organisms, with emphasis on recent research in poultry, are reviewed. Topics considered include taxonomy, systematics, genetics, genomics, transcriptomics, proteomics, transfection, oocyst biogenesis, host cell invasion, immunobiology, diagnostics and control.

Applying a transformative learning framework to volunteer tourism.

Abstract: This paper applies the educational theory of transformative learning to reconceptualising the practices of volunteer tourism. The theory of transformative learning posits a 10-step process to experience a radical shift in consciousness that dramatically and irreversibly alters how participants see their place in the world. Volunteer tourism has commonly been seen as a form of alternative tourism that provides a cathartic experience for the volunteer tourists and benefits to the hosting organisation and the natural and/or social environment of the project. Existing research suggests that these outcomes have not, as yet, been achieved by current practices in this sector. In referring to the theory of transformative learning we note that some, but not all, of the 10 steps have been applied and that we might therefore expect volunteer tourism to fall short of its promises. We conclude that the theory of transformative learning offers a useful framework for volunteer tourism, providing insights into the need to create opportunities for participants to complete the transformative process. We suggest that volunteer tourism organisations redesign their activities to include the remaining steps of transformative learning to improve their product for both the tourists and the sustainability outcomes of the projects.

An Amazonian rainforest and its fragments as a laboratory of global change

Abstract: We synthesize findings from the world’s largest and longest-running experimental study of habitat fragmentation, in central Amazonia. Over the past 36 years, 11 forest fragments ranging from 1 ha to 100 ha in size have experienced a wide array of ecological changes. Edge effects have been a dominant driver of fragment dynamics, strongly affecting forest microclimate, tree mortality, carbon storage and fauna. The matrix of vegetation surrounding fragments has changed markedly over time (evolving from large cattle pastures to mosaics of abandoned pasture and secondary regrowth forest), and this, in turn, has strongly influenced the dynamics of fragments and faunal communities. Both rare weather events and apparent global-change drivers have significantly influenced forest structure and dynamics across the entire study area, both in forest fragments and in nearby intact forest. Such large-scale drivers are likely to interact synergistically with habitat fragmentation.

Hydraulic architecture of deciduous and evergreen dry rainforest tree species from north-eastern Australia

Abstract: Hydraulic conductivity and xylem anatomy were examined in stems of two evergreen species, Alphitonia excelsa (Fenzal) Benth. and Austromyrtus bidwillii (Benth.) Burret., and two drought-deciduous species, Brachychiton australis (Schott and Endl.) A. Terracc. and Cochlospermum gillivraei Benth., from a seasonally dry rainforest in north Queensland, Australia. The deciduous species possessed hydraulic architecture typical of drought-sensitive plants, i.e. low wood density, wider xylem vessels, higher maximal rates of sapwood specific hydraulic conductivity (Ks) and high vulnerability to drought-induced embolism. In contrast, the evergreen species had lower rates of Kh and leaf specific conductivity (KL) but were less susceptible to embolism. The evergreen species experienced leaf water potentials <−4.0 MPa during the dry season, while the deciduous species shed their leaves before leaf water potentials declined below −2.0 MPa. Thus, the hydraulic architecture of the evergreens allows them to withstand the greater xylem pressure gradients required to maintain water transport to the canopy during the dry season. Our results are consistent with observations made in neotropical dry forests and demonstrate that drought-deciduous species with low wood density and high water storage capacity are likely to be more hydraulically efficient, but more vulnerable to embolism, than coexisting evergreens.