Unlike a certain breed of AI enthusiasts, when I contemplate the possibility that we are at a singular point in human history, that we may be at a point where past conventional wisdom needs to be actively disregarded, I don’t see it as a moment of new kinds of progress but one of new kinds of peril.
Basically, we are going through a phase transition, between a state where there were few monkeys to one where there are many monkeys. This means the former time where issues are distinct and perhaps have tenuous connections is over; now there is one big tangled problem: how do we keep the monkeys happy while settling them down and training them to live in a more or less zero-sum situation.
Maribo (H/T Stoat) offers us this daunting image to bring home one slice of the problem:
and a recent article in the online Journal PlosOne goes further.
In Ecosystem Overfishing in the Ocean by the Spanish, Canadian and Italian collaboration of Marta Coll, Simone Libralato, Sergi Tudela, Isabel Palomera, and Fabio Pranovi, the overfishing problem is viewed as a bulk biogeochemical process.
Here’s the abstract:
Fisheries catches represent a net export of mass and energy that can no longer be used by trophic levels higher than those fished. Thus, exploitation implies a depletion of secondary production of higher trophic levels (here the production of mass and energy by herbivores and carnivores in the ecosystem) due to the removal of prey. The depletion of secondary production due to the export of biomass and energy through catches was recently formulated as a proxy for evaluating the ecosystem impacts of fishing–i.e., the level of ecosystem overfishing. Here we evaluate the historical and current risk of ecosystem overfishing at a global scale by quantifying the depletion of secondary production using the best available fisheries and ecological data (i.e., catch and primary production). Our results highlight an increasing trend in the number of unsustainable fisheries (i.e., an increase in the risk of ecosystem overfishing) from the 1950s to the 2000s, and illustrate the worldwide geographic expansion of overfishing. These results enable to assess when and where fishing became unsustainable at the ecosystem level. At present, total catch per capita from Large Marine Ecosystems is at least twice the value estimated to ensure fishing at moderate sustainable levels.
In other words:
Fisheries catches represent a net export of mass and energy that can no longer be used by trophic levels higher than those fished. Thus, exploitation implies a depletion of secondary production of higher trophic levels due to the removal of prey. Based on this assumption, a new method was developed to quantify the loss in secondary production (L index) due to the removal of marine organisms through catches (expressed as PPR equivalents) compared to a theoretical unfished situation…
Humans aren’t just overfishing species, we are exporting biomass, degrading it, and pooping it back out into estuaries to first order. We are clear-cutting the whole ocean.
Again, the incentives for individual ship owners to behave this way are clear enough. The question is how to remove those incentives when the catch becomes too large, which it clearly is. I don’t know; cap and trade is hard enough to enforce on nations, never mind on boats. And maybe, since we’re going to acidify the oceans beyond supporting advanced life anyway, it could be argued that we might as well go ahead and send boats to pick out all the nice sushi first.
The sorts of decisions that have to be made to preserve the entire ocean are without precedent. It is a good thing that scientists go out and try to keep us informed as to what is happening. It would be better if there were some way to reward people for coming up with ways to change our collective behavior.
Update: Here’s some perverse incentives for you, in a video clip sent by “tidal”.