Evolutionary biology has no practical application!

Actually, evolutionary biology has rather a lot of practical applications. A recent article by Douglas Futuyma in Science [1] listed several of these (mostly paraphrased or quoted from the article):

Biodiversity and conservation: Analysis of risk of extinction due to "inbreeding, reduced gene flow, specialization, and constraints on genetic and ecological responses to global change." [2]
Phenotypic expression in novel environments: use of tools already in used in studies of natural systems, like "molecular markers of gene flow, gene geneaologies as evidence of gene exchange, analyses of phenotypic plasticity, and the 'costs' of adaptation".
Novel processes and products: This includes production of antibiotics, flavors, pigments, biopolymers, and enzymes.
Bioremediation: production of tolerance to waste products, production of bacterial strains to decompose hazardous materials. [3]
Wildlife management: identification of stocks by genetic analysis.
Agriculture: identification of disease resistance factors in related wild plants, pesticide resistance, management of pest adaptation to pesticide, pest resistant cultivation. [4, 5]
Health sciences: causes of senescence, treatment of fever, tracing origins of pathogens, evolution of virulence in viruses and other pathogens, measurement of genetic diversity in pathogens and in hosts, mechanisms of drug resistance, evolutionary epidemiology.

[1] Futuyma, D. 1995. The uses of evolutionary biology. Science 267(6 Jan. 1995):41-42.

[2] Kingsolver, J., P. Kareiva, and R.B. Huey, eds. 1993. Biotic Interactions and Global Change. Sinauer: Sunderland, MA.

[3] Antonovics, J. 1975. Proceedings of the International Conference on Heavy Metals in the Environment (Toronto 1975), pp.169-186.

[4] Gould, F. 1991. American Scientist 79:496.

[5]

Georghiou, G.P. and T. Saito, eds. 1983. Pest Resistance to Pesticides. Plenum: New York.