New mathematical model can help save endangered species

Colchero built a new model that take in account survival and reproduction for different species at different ages.

Credit: Fernanco Colchero, SDU.


What does the blue whale have in common with the Bengal tiger and the green turtle? They share the risk of extinction and are classified as endangered species. There are multiple reasons for species to die out, and climate changes is among the main reasons.


The risk of extinction varies from species to species depending on how individuals in its populations reproduce and how long each animal survives. Understanding the dynamics of survival and reproduction can support management actions to improve a specie s chances of surviving.

Mathematical and statistical models have become powerful tools to help explain these dynamics. However, the quality of the information we use to construct such models is crucial to improve our chances of accurately predicting the fate of populations in nature.

"A model that over-simplifies survival and reproduction can give the illusion that a population is thriving when in reality it will go extinct.," says associate professor Fernando Colchero, author of new paper published in Ecology Letters.

Colchero s research focuses on mathematically recreating the population dynamics by better understanding the species s demography. He works on constructing and exploring stochastic population models that predict how a certain population (for example an endangered species) will change over time.

These models include mathematical factors to describe how the species environment, survival rates and reproduction determine to the population s size and growth. For practical reasons some assumptions are necessary.

Two commonly accepted assumptions are that survival and reproduction are constant with age, and that high survival in the species goes hand in hand with reproduction across all age groups within a species. Colchero challenged these assumptions by accounting for age-specific survival and reproduction, and for trade-offs between survival and reproduction. This is, that sometimes conditions that favor survival will be unfavorable for reproduction, and vice versa.

For his work Colchero used statistics, mathematical derivations, and computer simulations with data from wild populations of 24 species of vertebrates. The outcome was a significantly improved model that had more accurate predictions for a species population growth.

Despite the technical nature of Fernando s work, this type of model can have very practical implications as they provide qualified explanations for the underlying reasons for the extinction. This can be used to take management actions and may help prevent extinction of endangered species.


Materials provided by University of Southern Denmark . Note: Content may be edited for style and length.

University of Southern Denmark. "New mathematical model can help save endangered species." ScienceDaily. ScienceDaily, 11 January 2019. .

University of Southern Denmark. "New mathematical model can help save endangered species." ScienceDaily. (accessed January 11, 2019).
News Topics :
Close The Auk Ornithological Advances presents a study on a Northern Spotted Owl pedigree, consisting of almost 14, 200 individuals over 30 years, which determined inbreeding varies across the species...
Close Currently approximately 600 species might be inaccurately assessed as non threatened on the Red List of Threatened Species. More than a hundred others that couldn t be assessed before, also...
The double whammy of fewer babies hatching and decline in the survival of adults has had a devastating effect on population numbers of species such as the critically...
Public outreach campaigns can prevent the spread of devastating yet treatable diseases such as tuberculosis TB , malaria and gonorrhea. But ensuring these campaigns effectively reach undiagnosed patients, who may unknowingly...
Infectious diseases can substantially reduce the size of wildlife populations, thereby affecting both the dynamics of ecosystems and biodiversity. Predicting the long term consequences of epidemics is thus essential for conservation....