Edward Shils' theory of tradition

Edward Shils presented his book Tradition (1981) as the first extensive study of the subject. This article casts light on Shils' multifaceted understanding of tradition, comprising pragmatic, Burkean, veridical, and evolutionist perspectives. His typology of traditions is noted, and his view of institutional bearers of tradition described. In assessing Shils' theory, however, we find that it overreaches, collapsing differences that exist between traditions, transmissions, and the traditional.

Joint consultative committees

This handbook provides an up-to-date survey of the current research into employee voice, sets this research into context, and sets a marker for future research in the area.

Losses and recovery of organic carbon from a seagrass ecosystem following disturbance

Seagrasses are among the Earth's most efficient and long-term carbon sinks, but coastal development threatens this capacity. We report new evidence that disturbance to seagrass ecosystems causes release of ancient carbon. In a seagrass ecosystem that had been disturbed 50 years ago, we found that soil carbon stocks declined by 72%, which, according to radiocarbon dating, had taken hundreds to thousands of years to accumulate. Disturbed soils harboured different benthic bacterial communities (according to 16S rRNA sequence analysis), with higher proportions of aerobic heterotrophs compared with undisturbed. Fingerprinting of the carbon (via stable isotopes) suggested that the contribution of autochthonous carbon (carbon produced through plant primary production) to the soil carbon pool was less in disturbed areas compared with seagrass and recovered areas. Seagrass areas that had recovered from disturbance had slightly lower (35%) carbon levels than undisturbed, but more than twice as much as the disturbed areas, which is encouraging for restoration efforts. Slow rates of seagrass recovery imply the need to transplant seagrass, rather than waiting for recovery via natural processes. This study empirically demonstrates that disturbance to seagrass ecosystems can cause release of ancient carbon, with potentially major global warming consequences.