Over time, science has found a way to link different fields of biology with other fields of science. These links have a way of bringing about new advancements in the study of biology.

This article contains a link between biology and mathematics, with 55 different mathematical biology research topics. These topics prove that mathematics and biology have solid similarities between them.

Math Biology Research Topics

Below are some math biology research topics to help guide you in educating your readers on the link between mathematics and biology, as well as the various benefits involved.

1. The relationship between biofluid mechanics and human anatomy
2. The relationship between biofluid mechanics and animal anatomy
3. The fundamental links between biofluid mechanics and the circulatory system
4. Mathematical models of biological functions
5. Mathematical models and representations of biofilms
6. Mathematical models of the spread of cancer cells
7. The role that mathematics plays in observing cell dynamics
8. Quantitative predictions of cancer cells
9. Quantitative predictions of aneurysms
10. Quantitative predictions of gestational diabetes
11. The multidimensional models of cancer
12. How mathematics has paved developmental waves in the areas of data sequencing and gene mapping
13. Mechanics behind planetary movement
14. Mechanics behind animal life cycles
15. Mechanics behind morphogenesis
16. Mathematical insights on formation of patterns in bacteria
17. The population dynamics of plants
18. The field of computational biomechanics and its contributions
19. The use of sound wavelengths in determining animal species
20. Graph theory in the measurement of endothelial cell features
21. Development of metapopulation models
22. Prediction of pollen flight dynamics using measurement of pollen specimens
23. Acquisition of data on biological processes through mathematical methods
24. Application of statistics in measuring the evolutionary trends of HIV
25. The use of differential equations in predicting the effects of climate change on fish production
26. Mathematical neuroscience and the role it plays in ensuring biological advancement
27. Mathematical analysis and documentation of stability in ecosystems of increased levels of complexity
28. Creation of mathematical models of biological tissue functions
29. Graphical representation of the different stages of growth in tumours and cancer cells
30. The use of statistical models to obtain optimum biological output
31. Mathematical models of the methods and processes of treating tumours
32. Mathematical models of plants showing the Fibonacci numbers
33. Mathematical biophysics and its contributions to biological advancement
34. Mathematical models of formation of biological patterns in multicellular organisms
35. Mathematical models of cell dynamical systems using differential equations
36. The bifurcation diagram of plant cells
37. Mathematical models of infectious diseases
38. Statistical predictions of epidemic outbreaks
39. Mathematical modelling of metabolic networks
40. Morphometrics and its role in biological processes
41. Mathematical models of molecules
42. The relationship between mathematical biology and theoretical biology
43. Population metrics of ants using the Fibonacci series
44. Statistical analysis of disease epidemics
45. Biological applications of the chaos theory
46. Mathematical models of spontaneous cell death
47. Mathematical models of cell interactions and transport processes
48. Mathematical models of gene expression in diagnosing chronic illnesses
49. Use of mathematical models in the study of cancer
50. Mathematical models showing origin of illnesses
51. Mathematical models of developmental stages of insects
52. Continuum models of nutrient depletion in agar plates
53. Measurement of microbial distribution in culture samples
54. Determination of microbial life stage using continuum models of nutrient depletion
55. Mathematical models of disease mechanisms of common pathogens

The mathematical biology research topics listed above obviously cover a lot of areas, giving special attention to each area visited. The topics are a good way to satisfy your own curiosity on just how the world of mathematics can be useful in biology and in understanding biological processes.

Whichever you choose to base your research on, there are extremely valuable and useful materials and ideas to guide you along properly.