12 research outputs found
DECA: distributed energy conservation algorithm for process reconstruction with bounded relative error in wireless sensor networks
Energy management in solar cells powered wireless sensor networks for quality of service optimization
Circulating tumor DNA dynamics predict benefit from consolidation immunotherapy in locally advanced non-small-cell lung cancer
Discovery of redundant free maximum disjoint Set-k-Covers for WSN life enhancement with evolutionary ensemble architecture
Epigenetic deregulation of GATA3 in neuroblastoma is associated with increased GATA3 protein expression and with poor outcomes
How to Utilise the Knowledge of Causal Responses? Physical and Physiological Forest Ecology
Our physical and physiological theory provides causal explanations of various phenomena in forests. This causal nature of the theory enables versatile applications in forestry and in the research of the interactions between climate change and forests. We treat the effects of thinnings and whole-tree harvesting on wood production and the responses of forest ecosystem to nitrogen deposition in more detail. The forests react to the increasing CO2 concentration and also to temperature increase generating feedbacks from forests to climate change. The changes in the carbon storages in forest ecosystems and in the emission of volatile organic compounds are evidently the most important feedbacks from forest ecosystems to the climate change