As a small kid I learned i = i +1, before any maths teacher told me it couldn’t.
As a small kid I learned i = i +1, before any maths teacher told me it couldn’t.
Nearly 200 upthumbs, more ?!
But the discussion explores broader and narrow variants, need to coalesce.
Indeed I see too much fatalistic doomerism here on Lemmy and it’s boring - waste of potential energy.
We can try to explain better - if people want to understand - that climate system is complex, actions don’t give immediately tangible results, there are many sub-systems with inertia, and indeed various types of waves too, but most of this is predictable and the pathways we have to follow are well known.
By the way about the jet-stream waves mentioned in the article, they have two sides - where I am it’s been cool recently.
More importantly, seems likely that Chinese emissions are peaking, not because they are so virtuous but because their enormous over-construction bubble involving so much steel and concrete, which was driving global emissions growth, has burst. When I was in climate negotiations years ago, we could never get the chinese to agree to talk about peaking before 2025, yet it happened. Meanwhile renewable energy expands fast around the world.
However we also reduced a lot of sulphate aerosols (both on land and from ships at sea), so we removed that temporary cooling, then on top of that we had El Niño, and have a peak in the solar cycle. The temperature spike then pushes more CO2 into the atmosphere from forests, soils and ocean, so we get bad news about atmospheric CO2, but such feedbacks happened before and are in the models, it’s not unexpected or out of control yet.
From the tasks described, it seems to me they were not measuring ‘Computer Skills’ as reasoning, patience, tenacity - people could have similar issues with similar tasks involving a pile of papers.
The hydroride site says the green bottle contains 20g hydrogen, that might make 180g water, but is still not a lot if you’re thirsty. But can 20g of Hydrogen really take a bike 60km ?
Depends whose lifetime. Mine, maybe not, but for my children - yes. Also depends what indicator - global CO2 emissions maybe falling this year, but temperature will lag decades, sea-level even more (btw I do model these scenarios, so know well how they diverge ).
Nice graphic. Although probably you’d see more info with just a lineplot, separating north / south + land /ocean. What strikes me is how regular the gap is over the last year, and how it bulges most in July-December, which suggests the ocean (larger and less variable) dominates the numbers, with El Niño overlaid on steady warming trend. To get it back down quickly, we need more effort on short lived gases - mainly methane (tackling aviation-indeed cirrus might also help compensate for reduced ship-sulphate cooling ) .
Dogs can be trained to be intelligent with bicycles. Mine loves to run fast alongside the e-bike on a riverside path - and biking rather than walking the dog also keeps her running straight, rather than exploring sideways or investigating others. She also likes to ride in the trailer. It’s dogs that are stuck too long behind fences that are more likely to want to bother cycles. Another hazard for a bike is intercepting one of those very-long dog-leads.
Even if we had low-emissions, low-noise, low-accident cars, there’d still be the concrete jungle surface needed to drive them - and loads of emissions to make the steel and cement of highways.
Although cars carrying four or more people directly to a medium-distance destination can be relatively efficient per pers-km, people buy oversized cars imagining some dream holiday, then use them for daily life on one-person trips that (electric-) bicycles and/or trains could do - car-sharing could help avoid that and solve the EV-range issue (although personally, my dream holidays would be in places with no cars at all).
Well, maybe not just wait … Some factors will fall back - e.g. El Niño is a cycle, so are sunspots, ocean patches go round in (big-slow) loops, forests can run out of tinder (for a while). But to be sure to tip the balance of those climate-carbon feedbacks we need to get the temperature down - this could be done quicker by focusing especially on emissions of shorter-lived gases - mainly methane. Cutting out aviation-induced cirrus might also help to cancel some of the warming we got from cutting shipping sulphate - the opposite effect is because low clouds cause net cooling, high clouds cause net warming (depending on angle of sun etc. …). The good news is that models already include most of these factors, the bad news is that models say we have to cut emissions much faster than we do.
Global directly-anthropogenic CO2 emissions - things we measure and attribute to countries - have been flat in the period 2019-23 (except for covid dip), and maybe falling this year (due to changes in China). However there are also climate -> carbon feedbacks. The most obvious are forest fires which tend to peak during El Niño years (it’s a repeating pattern - I even remember 1998 seeming bad). Heating also enhances respiration by bugs in soils, and reduces the solubility of CO2 in seawater - the ocean is the largest and most long-term CO2 sink. El Niño also changes ocean circulation temporarily, but I forget which way this impacts CO2 (it’s not trivial - you have to think about the history and future of large patches of water).
So, if known emissions are flat, but there is a record increase in the atmosphere, that means those feedbacks are worse.
It takes a while to disentangle the factors, but this is not a surprise to me.
So that suggests, over 4 tons CO2 per tank-refill. Many of those things don’t get to roll very far (except by train, ship), but there’s still over 120 tons embodied CO2 just from producing the (mainly) steel. Also the energy in the shells.
I guess military planes, ships, missiles contribute more than tanks. Should also consider albedo effects such as smoke drifting over arctic snow.
But maybe this is all dwarfed by the implied emissions of reconstruction later, also missed opportunities for cooperation on global mitigation efforts.
The key new info is not the decadal trend, it’s ‘not yet risen beyond pre-pandemic levels’ - in other words global emissions are ± flat. More recent info (also from carbonbrief) suggests that China’s emissions may now be falling (and therefore likely global too -as China was such a large fraction of recent growth). On the other hand feedbacks from high temperatures in 2023 - forest fires, ocean circulation etc., made the atmospheric CO2 rise break another record, but several temporary factors (e.g. reduced shipping sulphate, El Nino, solar cycle, etc.) contributed to that spike.
Of course all emissions should be counted. It’s not just the explosions and burning oil, I’d guess that manufacturing all the steel and chemicals also uses loads of energy. Some stockpiles used now may be associated with emissions long ago, e.g. in the last decades of the soviet union emissions rose very high, even while the economy was low.
Hi, excuse me for replying so late, but i’ve been away from lemmy for.a while.
Well, to summarise, the model calculates the future trajectories, of population, economy, emissions, atmospheric gases, and climate response etc., according to a set of (hundreds of) diverse options and uncertainties which you can adjust - the key feature is that the change shows rapidly enough to let you follow cause -> effect, to understand how the system responds in a quasi-mechanical way.
Indeed you are right, complexity is beautiful, but hard. A challenge with such tools is to adjust gradually from simple to complex. Although SWIM has four complexity levels, they are no longer systematically implemented - also what seems simple or complex varies depending where each person is coming from, so i think to adapt the complexity filter into a topic-focus filter. Much todo …
I’m using Alexandrite, find it good
As it happens I’ve been calculating per capita emissions for 28 years, since COP2.
You can see my model here.
No I certainly don’t include Russia nor Turkey, although europe is more than EU. Korea is indeed notable.
Regarding what they call ‘consumption emissions’, you can get such data from Global Carbon Project, on that I’m less an expert but my hunch is that industry emissions are dominated by heavy products like steel and cement for construction (made with help of gigatons of coal), rather than light consumer goods for export. Over-construction is the root of the problem, global emissions will peak (maybe now) as that bubble bursts.
Hmm, publishing that will really help those Crimean beach hotels get customers for this summer…
lopq’s original comment is correct for ‘whole west’ too. the second part is also true per capita. By the way europe also has a lot more people than united states, it’s not irrelevant.
I see that says ‘has to be local only, not federated’ (same issue also discussed on github).
‘Local only’ suggests to me front-end, i.e. info stored by browser. In that case people who are often switching devices would have to re-organise on each one, which could be tedious.
So isn’t there something in between local and federated - i.e. saved by the instance as user-settings, but not pushed to other instances?
Maybe there could be some manual copying mechanism, so a user who organises a big set of communities could share with others. (This reminds me of mastodon ‘lists’ and various ways of organising and transferring them).