Thermal requirements underpinning germination allude to risk of species decline from climate warming
Date
2020
Authors
Cochrane, Anne
Journal Title
Journal ISSN
Volume Title
Publisher
M D P I AG
Abstract
Accurate predictions of the physics of interstellar medium (ISM) are vital for understanding galaxy formation and evolution. Modelling photoionized regions with complex geometry produces realistic ionization structures within the nebulae, providing the necessary physical predictions to interpret observational data. 3D photoionization codes built with Monte Carlo techniques provide powerful tools to produce the ionizing radiation field with fractal geometry. We present a high-resolution Monte Carlo modelling of a nebula with fractal geometry, and will further show how nebular geometry influences the emission-line behaviours. Our research has important implications for studies of emission-line ratios in high redshift galaxies.
Description
Keywords
temperature, seed germination, germination rate, degree-days, global warming
Citation
Collections
Source
Plants
Type
Journal article
Book Title
Entity type
Access Statement
Open Access
License Rights
Creative Commons