Yes, but then you need to STOL kit, PPONK upgrades, glass cockpit.
I prefer to just build my own.

No, you don't need any of those things. A set of bushwheels on a stock 180 and you have a very capable bush plane.

It's the parts price that will kill you.

The four place cessnas are good airplanes. The 170 is a very good airplane, when it's not underpowered with the factory engine. From a performance perspective I would be totally happy with a 180HP C170 or a C180, but airplanes are a lot more than performance. While the inside of my 170 is plenty big enough for what I want to do with it, I'm also forced to load everything through the front doors which isn't awesome. Another issue is the old cessna parts. I paid $200 for a flap hinge that was nothing more than extruded hinge material because of the part number stamped on it. Then there is the cessna spring gear. If you don't absolutely nail the wheel landings, they throw you right back into the air.

He was also on 26" Goodyears, and the VG's he installed a few months ago cost him 4 mph according to that video.

For 10gph I get about 113kts on 31s with VGs and no gear leg fairings at 500msl. When I fly around with my buddy in his cub I'm usually in the 5-6gph range to match his speed, which is about 75-80kts. Usually something like 14" 2100rpm.

Something to consider... usually, only a few parts are critically stressed. So, the change in maximum g loading between the (former*) utility and normal category standards likely only propagates to a few critically stressed parts - most will be at a far larger factor of safety. Usually, that's somewhere in the wing, such as the spar cap strips and wing attach points. Things in the fuselage tend to be sized to crash loads and landing loads - stuff behind the pilot is sized to 9-18g axially for crash loads, depending on if it's a CAR3 or Part 23 airplane. I would be very surprised if designing to utility category structural standards would add more than a dozen pounds to the Bearhawk design, but I'll admit I'm spitballing here.

I suspect the main reason you don't see many bush planes that are certified to utility standards has little to do with the marginal increase in structural weight. Under the old Part 23 (prior to August 2017), utility category airplanes had to recover from 3-turn spins. Normal category airplanes need only to recover form 1-turn spins (and are placarded against intentional spinning). Aerobatic aircraft must recover from 6-turn spins. Most airplanes aren't in a fully-developed spin by 1-turn, but may be by 3-turns, hence, it's harder to design and certify. Spin test matrices can get into 100s of conditions, and if you don't pass one, it kills the whole program (you may have thought you designed for it, but at some wonky aft-CG, power-on, lightweight left-turn accelerated condition it may not pass the criteria). Hence, that bush plane may meet utility structural strength requirements, but they may not have been able to pass (or did not want to try to pass) all the 3-turn spins in the certification program.

[*Under the Part 23 rewrite, the only category is now Normal. There is no more utility category, and if you wish to certify for spins, you have to use aerobatic standards (6g, recovery after 6-turns) for whatever configurations you request. Certification is to "levels," shorthand for "risk level," and the levels are 1-4. The levels are not weight-based, but instead based solely on the maximum number of passenger seats. So, under the new Part 23, you could design a Level 1 airplane that is 19,000 pounds as long as it has one or zero passenger seats (note that it may have one or more crewmembers, which don't count towards the "Level"). There are a number of new changes - such as the elimination of the 1-turn spin requirement, since the majority of LOC accidents occur at altitudes below spin recovery altitude. Instead, single-engine aircraft not certified for aerobatics, "must not have a tendency to inadvertently depart controlled flight." ASTM Committee F44 is one of the main sources for means of compliance to the new Part 23 rules, which follows from the FAA's confidence in the ASTM standards (ASTM Committee F37 maintains the means of compliance for LSA).]

My 2 cents worth on "Utility Category" versus "utility"... I think when you see the word "utility", you are thinking about the FAA definition of "Utility Category." But others might just be using the more common English definition of "utility" – as in a synonym for "useful or beneficial."

I suspect when pilots use the term "utility" without adding the word "category" following it – even in an aviation forum – they probably are not referring to the "Utility Category" meaning. At least, that's my take...

I think you just created an interesting discussion that I enjoyed reading.