Christopher Strickland
Cited by
Cited by
Consequences of intraspecific variation in seed dispersal for plant demography, communities, evolution and global change
RS Snell, NG Beckman, E Fricke, BA Loiselle, CS Carvalho, LR Jones, ...
AoB Plants 11 (4), plz016, 2019
The total dispersal kernel: a review and future directions
HS Rogers, NG Beckman, F Hartig, JS Johnson, G Pufal, K Shea, D Zurell, ...
AoB Plants 11 (5), plz042, 2019
IB2d: a Python and MATLAB implementation of the immersed boundary method
NA Battista, WC Strickland, LA Miller
Bioinspiration & biomimetics 12 (3), 036003, 2017
Modeling the prescription opioid epidemic
NA Battista, LB Pearcy, WC Strickland
Bulletin of mathematical biology 81, 2258-2289, 2019
Advancing an interdisciplinary framework to study seed dispersal ecology
NG Beckman, CE Aslan, HS Rogers, O Kogan, JL Bronstein, JM Bullock, ...
AoB Plants 12 (2), plz048, 2020
IB2d Reloaded: A more powerful Python and MATLAB implementation of the immersed boundary method
NA Battista, WC Strickland, A Barrett, LA Miller
Mathematical Methods in the Applied Sciences 41 (18), 8455-8480, 2018
Employing plant functional groups to advance seed dispersal ecology and conservation
C Aslan, NG Beckman, HS Rogers, J Bronstein, D Zurell, F Hartig, K Shea, ...
AoB Plants 11 (2), plz006, 2019
Agent-based and continuous models of hopper bands for the Australian plague locust: How resource consumption mediates pulse formation and geometry
AJ Bernoff, M Culshaw-Maurer, RA Everett, ME Hohn, WC Strickland, ...
PLoS computational biology 16 (5), e1007820, 2020
Modeling the presence probability of invasive plant species with nonlocal dispersal
C Strickland, G Dangelmayr, PD Shipman
Journal of mathematical biology 69, 267-294, 2014
Three-dimensional low Reynolds number flows near biological filtering and protective layers
C Strickland, L Miller, A Santhanakrishnan, C Hamlet, NA Battista, ...
Fluids 2 (4), 62, 2017
Network spread of invasive species and infectious diseases
C Strickland, G Dangelmayr, PD Shipman, S Kumar, TJ Stohlgren
Ecological Modelling 309, 1-9, 2015
Inferring stratified parasitoid dispersal mechanisms and parameters from coarse data using mathematical and Bayesian methods
C Strickland, NP Kristensen, L Miller
Journal of The Royal Society Interface 14 (130), 20170005, 2017
The role of water and fire in driving tree dynamics in Australian savannas
C Strickland, AC Liedloff, GD Cook, G Dangelmayr, PD Shipman
Journal of Ecology 104 (3), 828-840, 2016
Towards a continuous population model for natural language vowel shift
PD Shipman, SH Faria, C Strickland
Journal of theoretical biology 332, 123-135, 2013
A data-driven mathematical model of the heroin and fentanyl epidemic in Tennessee
T Phillips, S Lenhart, WC Strickland
Bulletin of Mathematical Biology 83 (10), 97, 2021
Experiments and agent based models of zooplankton movement within complex flow environments
MK Ozalp, LA Miller, T Dombrowski, M Braye, T Dix, L Pongracz, R Howell, ...
Biomimetics 5 (1), 2, 2020
A semi-automated finite difference mesh creation method for use with immersed boundary software IB2d and IBAMR
DM Senter, DR Douglas, WC Strickland, SG Thomas, AM Talkington, ...
Bioinspiration & biomimetics 16 (1), 016008, 2020
Modeling the effects of size-dependent harvesting strategies on the population dynamics of tropical trees
T Phillips, OG Gaoue, S Lenhart, WC Strickland
Mathematical Biosciences 355, 108953, 2023
A Call for the Development of a Sustainable Pest Management Program for the Economically Important Pest Flies of Livestock: a Beef Cattle Perspective
KV Smith, KL DeLong, CN Boyer, JM Thompson, SM Lenhart, ...
Journal of Integrated Pest Management 13 (1), 14, 2022
Formation of square lattices in coupled pattern-forming systems
C Strickland, DA Pearson, PD Shipman
Biomath 5 (2), ID: 1612181-ID: 1612181, 2016
The system can't perform the operation now. Try again later.
Articles 1–20