Dynamic Magma Evolution (Hardcover)

I) Introduction

Chapter 1. Introduction: The importance of dynamic magmatic and volcanic processes.
By Francesco Vetere (University of Perugia); Adrian Fiege (AMNH); editors

II) The dynamics of magma evolution at depth

Chapter 2. Overview of magma mixing processes and crystal features
By Diego Perugini (University of Perugia) (agreed to contribute)

Chapter 3. Magma intrusion and underplating as a trigger of volcanic eruptions
By Caroline Bouvet de Maisonneuve (Università di Verona) (not yet invited)

Chapter 4. Experimental investigations of magma mixing: A Review
By Adrian Fiege (AMNH) (editor)

Chapter 5. Understanding magma mingling processes at Kilauea Iki, Hawaii
By Marie Edmonds (Cambridge University), Bruce Houghton (University of Hawai’i) (agreed to contribute)

Chapter 6. Titanium-in-Quartz: Understanding magma recharge dynamics
By Nicholas Tailby (AMNH) (agreed to contribute)

Chapter 7. Enclave survival after magma recharge
By Philipp Ruprecht (University of Nevada, Reno) (agreed to contribute)

Chapter 8. Axial melt lens dynamics at fast-spreading ridges
By Jurgen Koepke (University of Hannover), Chao Zhang (University of Hannover) (agreed to contribute)

III) Magma crystallization and rheology

Chapter 9: Overview of melt and magma viscosity
By Francesco Vetere (University of Perugia) (editor) and Francois Holtz (University of Hannover) (agreed to contribute)

Chapter 10. Review on glass forming ability: Understanding cooling induced crystallization.
By Gianluca Iezzi (Università degli Studi G. d'Annunzio Chieti) and Silvio Mollo (University La Sapienza Roma) (agreed to contribute)

Chapter 11. Real-time investigations of crystallization kinetics.
By Marco Zanatta (Università di Verona) (not yet invited)

Chapter 12. Rheological evolution of crystallizing magma: intrinsic and extrinsic controls, feedback processes and tipping points
By Allan Whittington (University of Missouri) (agreed to contribute)

IV) Magma ascent, degassing, and eruption

Chapter 13. Overview of magma ascent rate meters
By Madeleine Humphreys (Durham University) or Malcom Rutherford (Brown University) (not yet invited)

Chapter 14. Melt embayments and melt inclusion: Magma ascent clocks
By Terry Plank (Columbia University) (not yet invited)

Chapter 15. Kinetics of volatile degassing, a review: Understanding volatile signature in volcanic glasses and gases
By Zoltan Zajacz (University of Toronto) (not yet invited)

Chapter 16. Modeling crystal-size-distributions (CSD): Review and implications to the long-term prediction of volcanic eruptions
By Atsushi Toramaru (Kyushu University) (agreed to contribute)

Chapter 17. Understanding bubble formation and growth in 3D
By Sarah Cichy (University Potsdam), Roman Botcharnikov (University Mainz) (very interested, will likely contribute)

Chapter 18. Entrapment of boundary layer melts enriched in phosphorus and CO₂ in fast-grown ulvöspinel crystals
By Marc-Antoine Longpré (Queens College), John Stix (McGill University), Nobumichi Shimizu (Woods Hole Oceanographic Institution) (agreed to contribute)

V) Closing remarks and outlook

Chapter 19. Summary of the key findings presented in the  book and future research required in the field of dynamic magmatism
By Francesco Vetere (University of Perugia); Adrian Fiege (AMNH); editors