Kingdom Microbia and the Public Goods Dilemma

"[C]ue-driven threshold cooperation may be a viable evolutionary strategy for microbes that cannot keep track of past behavior of their potential cooperating partners, in spatially viscous and in well-mixed environments alike. 

2019  Behavioral heterogeneity in quorum sensing can stabilize social cooperation in microbial populations  

Excerpts

" Microbial communities are susceptible to the public goods dilemma.  

* Bacteria establish a cooperative system (quorum sensing) in a population, by coordinating their production of costly and shareable extracellular products ('public goods' in that microsociety. Be it a microfilm on an eelgrass stem)

Cooperators are vulnerable to being undermined QS-deficient defectors that escape from quorum cooperation but benefit from the cooperation of others.  They have ways of blocking them, but mostly don't:

infact  cooperators frequently coexist with defectors. "They form a relatively stable equilibrium during evolution.  "   

The Noncooperators bring innovation  but in small enough doses 

These individuals can gain an advantage within a group by using, but not sharing, the cost of producing, public goods.  

Microorganisms have evolved several mechanisms to resist cheating invasion in the public goods game.  The simplest one is  "Conditional Defectors. 

Conditional defectors represent a QS-inactive state of wild type (cooperator) individual and can invade QS-activated cooperators by adopting a cheating strategy, and then revert to cooperating when there are abundant nutrient supplies irrespective of the exploitation of QS-mutant defector."

 "[T]he incorporation of conditional defection strategy into the framework of iterated public goods game with sound punishment mechanism can lead to the coexistence of cooperator, conditional defector, and defector in a rock-paper-scissors dynamics.

Quorum disruption on industrial scale - an end to natural biofouling?

A critically important event in the life of nearly all marine invertebrates is successfully "settling".

Settling means transitioning from being a floating zooplankton larvae to living in or on the seafloor and other solid marine surfaces. like rocky ledge outcrops seagrasses and seaweeds

It was only relatively recently discovered that  the  larvae of each species  will only succeed in settling, if there is a biofilm of specific bacteria species covering that surface. Mussels, seaworms, barnacles: each requires  a specific microbial welcome mat to land upon

Can Bacteria Evolve Resistance to Quorum Sensing Disruption?

By Tom Defoirdt, 1 , 2 , * Nico Boon, 2 and Peter Bossier 1

Induction of Invertebrate Larval Settlement; Different Bacteria, Different Mechanisms?

Scientific Reports 7, Article number: 42557 (2017)
Marnie L. Freckelton
, Brian T. Nedved
& Michael G. Hadfield


Influence of biofilms on the larval settlement of Balanus reticulatus Utinomi (Cirripedia: Crustacea) 1999

Biofouling Journal 

Biofouling. 2013;29(9):1097-113. doi: 10.1080/08927014.2013.828712. Epub 2013 Sep 18.

Interactions between microbial biofilms and marine fouling algae: a mini review.
Mieszkin S1, Callow ME, Callow JA.

Interactions between microbial biofilms and marine fouling algae: a mini review
Sophie Mieszkin,Maureen E. Callow &James A. Callow
Pages 1097-1113 | Received 31 May 2013, Accepted 20 Jul 2013, Published online: 18 Sep 201

PLoS Pathog. 2010 Jul; 6(7): e1000989.

Published online 2010 Jul 8. doi:  10.1371/journal.ppat.1000989

PMCID: PMC2900297

Sci Rep. 2012;2:228. doi: 10.1038/srep00228. Epub 2012 Jan 18.
Recruitment in the sea: bacterial genes required for inducing larval settlement in a polychaete worm.

Huang Y1, Callahan S, Hadfield MG.

Mega challenge of marine microplastics: keeping them off mother nature's menu

Microplastics in  a crustacean larvae.

Microplastics and larger plastic bits in saltwater or fresh are problematic for the fish, birds, crustaceans, bivalves and other organisms that ingest them. How do we keep plastic out of their diets?

Recent research suggests that the key attraction of the plastic bits to fishes, birds and invertebrates is the flavor/odor of the biofilm of bacteria that has colonized these plastic particles as solid habitats.

Like other organisms, bacteria eat and breathe and emit wastes andsignaling chemicals. Those emissions are attractive to animals from protozoa to invertebrates and vertebrates, who treat the plastic particles as though they were mini-wontons or micro- matzo balls.

Since we won't be training Mother Nature to avoid plastic, and we aren't likely to stop manufacturing and using the stuff any time soon, can we make plastic unattractive to microbes?

Plastic makers have been required to tweak their products chemistry to protect public health, so it is not impossible to require plastic people to make their stuff unattractive to marine bacteria, or freshwater ones.

Pastic-filled bird carcass & plastics taken from it

But that raises more questions:
While you _could_ add an antibacterial to the plastic, the ubiquity of the plastic bits in the bays and seas is such that you would be filling the water column with antibacterial chemical-emitting particles - specifically geared toward repelling or killing natural marine or freshwater bacteria that live there.

That's not a good way to go.. How else to make plastic unappealing to marine bacteria?

The mega challenge of marine microplastics: getting them off Mother Nature's menu.

Crustacean larvae full of plastic  microbeads

Microplastics and larger plastic bits in saltwater or fresh are problematic for the fish, birds, crustaceans, bivalves and other organisms that ingest them. How do we keep plastic out of their diets?

Recent research suggests that the key attraction of the plastic bits to fishes, birds and invertebrates is the flavor/odor of the biofilm of bacteria that has colonized these plastic particles as solid habitats.

Like other organisms, bacteria eat and breathe and emit wastes andsignaling chemicals. Those emissions are attractive to animals from protozoa to invertebrates and vertebrates, who treat the plastic particles as though they were mini-wontons or micro- matzo balls.

Since we won't be training Mother Nature to avoid plastic, and we aren't likely to stop manufacturing and using the stuff any time soon, can we make plastic unattractive to microbes?

Plastic makers have been required to tweak their products chemistry to protect public health, so it is not impossible to require plastic people to make their stuff unattractive to marine bacteria, or freshwater ones.

Pastic-filled bird carcass & plastics taken from it

But that raises more questions:
While you _could_ add an antibacterial to the plastic, the ubiquity of the plastic bits in the bays and seas is such that you would be filling the water column with antibacterial chemical-emitting particles - specifically geared toward repelling or killing natural marine or freshwater bacteria that live there.

That's not a good way to go.. How else to make plastic unappealing to marine bacteria?