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Tiina Roose

Showing results (1-10 of 42) with videos related to

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The New Phytologist|July 27, 2006
Modelling the contribution of arbuscular mycorrhizal fungi to plant phosphate uptakeAndrea Schnepf, Tiina Roose
Philosophical Transactions. Series A, Mathematical, Physical, and Engineering Sciences|September 27, 2008
Mathematical models of plant-soil interactionTiina Roose, Andrea Schnepf
Bulletin of Mathematical Biology|July 16, 2008
Network development in biological gels: role in lymphatic vessel developmentTiina Roose, Andrew C Fowler
Bulletin of Mathematical Biology|February 25, 2017
A Mathematical Model of Lymphangiogenesis in a Zebrafish EmbryoKenneth Y Wertheim, Tiina Roose
Bulletin of Mathematical Biology|January 5, 2019
Can VEGFC Form Turing Patterns in the Zebrafish Embryo?Kenneth Y Wertheim, Tiina Roose
Journal of Biomechanics|November 1, 2011
Multiscale modeling of lymphatic drainage from tissues using homogenization theoryTiina Roose, Melody A Swartz
Bulletin of Mathematical Biology|April 26, 2015
A Model for Interstitial Drainage Through a Sliding Lymphatic ValveCharles Heppell, Tiina Roose, Giles Richardson
Bulletin of Mathematical Biology|January 13, 2011
Modelling nutrient uptake by individual hyphae of arbuscular mycorrhizal fungi: temporal and spatial scales for an experimental designAndrea Schnepf, Davey Jones, Tiina Roose
Bulletin of Mathematical Biology|November 20, 2012
A model for fluid drainage by the lymphatic systemCharles Heppell, Giles Richardson, Tiina Roose
Journal of the Royal Society, Interface|March 28, 2009
A dynamic model of annual foliage growth and carbon uptake in treesA C Fowler, Oliver Clary, Tiina Roose
Pageof 5

Showing results (1-10 of 42) with videos related to

Sort By:
Pageof 5
The New Phytologist|July 27, 2006
Modelling the contribution of arbuscular mycorrhizal fungi to plant phosphate uptakeAndrea Schnepf, Tiina Roose
Philosophical Transactions. Series A, Mathematical, Physical, and Engineering Sciences|September 27, 2008
Mathematical models of plant-soil interactionTiina Roose, Andrea Schnepf
Bulletin of Mathematical Biology|July 16, 2008
Network development in biological gels: role in lymphatic vessel developmentTiina Roose, Andrew C Fowler
Bulletin of Mathematical Biology|February 25, 2017
A Mathematical Model of Lymphangiogenesis in a Zebrafish EmbryoKenneth Y Wertheim, Tiina Roose
Bulletin of Mathematical Biology|January 5, 2019
Can VEGFC Form Turing Patterns in the Zebrafish Embryo?Kenneth Y Wertheim, Tiina Roose
Journal of Biomechanics|November 1, 2011
Multiscale modeling of lymphatic drainage from tissues using homogenization theoryTiina Roose, Melody A Swartz
Bulletin of Mathematical Biology|April 26, 2015
A Model for Interstitial Drainage Through a Sliding Lymphatic ValveCharles Heppell, Tiina Roose, Giles Richardson
Bulletin of Mathematical Biology|January 13, 2011
Modelling nutrient uptake by individual hyphae of arbuscular mycorrhizal fungi: temporal and spatial scales for an experimental designAndrea Schnepf, Davey Jones, Tiina Roose
Bulletin of Mathematical Biology|November 20, 2012
A model for fluid drainage by the lymphatic systemCharles Heppell, Giles Richardson, Tiina Roose
Journal of the Royal Society, Interface|March 28, 2009
A dynamic model of annual foliage growth and carbon uptake in treesA C Fowler, Oliver Clary, Tiina Roose
Pageof 5