Research

Social immunity

In addition to the individual immunity of all colony members, social insects protect their colonies from disease by cooperative defences. This social immunity acts to prevent contamination of the colony, infection of colony members and disease transmission, hence to improve fitness of the colony.

The concept

Protection of the superorganism

Social insect colonies are „superorganisms”. Like cells in a body, the different insects specialize on different tasks: queens and males reproduce, whilst the workers are typically sterile and perform colony maintenance tasks. Social immunity describes how the colonies as reproductive entities are protected from disease.

Sanitary care

Preventing current infection

Pathogen-exposed ants receive immediate sanitary care by their healthy colony members, effectively preventing infection of the contaminated individuals. Sanitary care combines mechanical removal of infectious particles by grooming and antimicrobial sanitation.

Nest hygiene

Preventing colony contamination

Pathogens need to enter and establish in the colony to later cause infection of colony members. To prevent colony contamination, ants constantly and prophylactically disinfect their nest, particularly their brood pile, with antimicrobials like their formic-acid rich poison.

Treating infection

Preventing pathogen replication

Ants treat infections and thereby prevent pathogen replication and hence disease transmission through the colony. They are able to detect infections already during the non-infectious incubation period by chemical cues and to treat them by complex behaviors and use of antimicrobials. This allows them to prevent the pathogen from producing new infectious particles, a highly efficient way to stop disease spread through the colony.

Social immunisation

Preventing future infection

Social contact with infectious colony members causes pathogen transmission to previously healthy colony members. Often, this cross-contamination only leads to low-level infection of the colony members, which does not cause disease but induces a protective immunisation.

Organisational immunity

Preventing disease spread

Pathogens use the social interaction networks of their hosts for transmission to new host individuals. Social insect colonies react to pathogen entry into the colony by re-organisation of their social interaction networks. Contaminated ants, but also their peers, reduce contact to the remaining colony members. This leads to a highly efficient reduction of disease spread through the colony.

Our research

(Ecol Lett, 2020) Social immunity modulates competition between coinfecting pathogens

This study investigates how social host interactions influence pathogen competition during coinfections. Read more
(Science, 2018) Social network plasticity decreases disease transmission in a eusocial insect

The study shows that behavioral changes after pathogen exposure help to contain the disease. It suggests that in social groups network plasticity after contact to a pathogen helps reducing the effects of disease. Read more
(Ecol Evol, 2018) Social environment affects the transcriptomic response to bacteria in ant queens

The article looks at the effects of social immunity on individual immune responses. The study uses bacterial infected queens of the species Linepithema humile as a model system. Read more
(Curr Biol, 2018) Protection against the lethal side effects of social immunity in ants

The publication looks at how brood is protected against the harmful effects of formic acid. Read more

Our publications >