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BIOL 2321_16323_Microbiology for Science Majors - 03_23_22_Lecture
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00:12 mm hmm. Yeah. Yeah. folks, welcome. Um Today uh
00:48 are starting unit three. So uh of the things we'll talk about
00:53 we've heard about before, particularly in to 14 regarding um different nitrogen components
01:02 how they're involved in either honorable preparation a terminal except er or little trophy
01:09 a source of electrons. Um We're of we're gonna look at that in
01:14 context of ecological sense. Okay, we'll see the maestro and triangle
01:21 We'll go through one of those sides little more detail. Um But in
01:30 to that we'll start with um uh water cycle but more in the context
01:38 E. O. D. Which talk about. Okay, so of
01:45 this week, well actually starting tomorrow if you have of course you still
01:49 questions, I'm available email or through you want to meet the uh team
01:58 office hours tomorrow, I can meet those hours is fine. Uh Let's
02:04 , weekly quiz. So there is smart work assignment due this week,
02:07 there is a weekly quiz that's just to cover. It was like a
02:11 of questions on today's stuff that's what's be on the quiz. Uh so
02:16 course um aside from the, you , the little bit of the overlap
02:20 were doing today that relates to The the Material today is not specifically
02:29 the exam, of course this is be on exam three. So uh
02:36 the day begins the next unit and three relatively short I guess probably like
02:45 weeks or so which ends mid The exams mid april but will begin
02:51 started for here with the we're talking medical microbiology aspects of that to end
02:58 semester with. Okay so um so um look at Uh start here.
03:09 so one thing is by no means recovering all of 21 and 22
03:16 Okay one section. And of that the portion of a section in chapter
03:23 And two sections and 22. Also necessarily entirely. Okay so I just
03:31 I have talked to have talked about and stuff you've been doing for the
03:38 couple of weeks in you know more a maybe real real world context to
03:43 degree. Okay. And um so but as you're going through this,
03:51 sure that you are aware that this all we're covering in these two
03:55 Right? So don't stray off into stuff. Okay. Obviously if if
04:01 want to for your own but uh time but you're not gonna be tested
04:06 things outside these three sections. So like I said we'll go through
04:12 the water cycle more in the context how uh wastewater treatment. Okay.
04:18 of the basics of that and uh of the pitfalls of having what's called
04:25 B. O. D. Okay uh and then the last half is
04:31 on the nitrogen cycle importance of that particularly in in that one side of
04:37 triangle, the nitro fixation side. so we'll get through there. So
04:43 talking about the water cycle which is I'm sure you're quite aware of because
04:47 basically the basic terms precipitation falls on um basically gravity for the most part
04:56 it eventually to nearby streams, ponds, oceans. Um And uh
05:05 course then evaporation uh from the bodies water into the air and then returning
05:11 through precipitation. So obviously that completes whole cycle. Um But our interest
05:16 more in as water is traveling uh picking up various nutrients that are in
05:24 right? Either on top of and water or through soil, picking up
05:29 course lots of organic material along the . So and that runoff as I
05:36 immensity ends up into various bodies of . Okay and so that can be
05:43 issue if there is discharge of material or unknowingly that can increase these levels
05:52 D. O. D. K. And then we'll see how
05:53 can have an impact environmentally. So um and so in particular what happens
06:04 and again it's all due to the activity. So what we're talking about
06:07 is the things we've already talked about right aerobic respiration. Okay um that's
06:15 activity is what leads to oxygen depletion in these aquatic environments when you have
06:22 run off the B. O. . Containing water into these areas.
06:26 And we'll see the effects of Um So let's start with what gov
06:33 . Right so take a stab at question here. Okay. Um you
06:38 have guessed I haven't mentioned directly but can probably guess what refers to.
06:43 so you have four water samples subjected be of the analysis. Okay.
06:49 sample has the lowest blvd? So was looking at the axis here um
06:55 per liter of resolved auction. So looking at the parameter here is oxygen
07:00 in the same way the rate of depletion and that can tell you something
07:06 the sample. Ah And this is kind of analysis that your local wastewater
07:13 systems, right? All of us we live, you know in in
07:19 various subdivisions across town. Each subdivision kind of their own wastewater treatment
07:24 You probably have heard of uh your relatives parents would have, you speak
07:34 mud taxes. Right? These are utility district taxes that support these
07:39 Okay. And they are they you in in residential areas a single plant
07:45 accommodate serve 150 200 homes. Um but the missing account analysis they
07:54 on a regular basis. It's O. D. Analysis. So
07:58 see what we got here. Um it is going to be better.
08:09 . The uh amount of beauty refers organic material in the sample. Okay
08:17 to um lots of organic material is down aerobic respiration. So auctions the
08:25 except for auction source comes out of water. Okay. So what auction
08:29 depleted the more B. O. . More again material in the
08:33 the faster the rate. Okay so . It's gonna have the highest
08:38 O. D. Right? And B. Is next C.
08:41 The least. Okay. Yes. . You said that it's kind of
08:48 with how much biological material that is the so aren't certain kinds of biological
08:56 more demanding oxygen wise than others? It can be like uh facts uh
09:04 fats as a source versus carbohydrates perhaps it's a total content. So water
09:10 going to have a variety of different in it. Oh it can vary
09:13 if it's a but wastewater treatment samples have a variety of organic material in
09:18 different sources. Yeah. So is not possible to have like something that's
09:25 and the more oxygen demanding is not right term? I think so it
09:32 be um it's gonna the bacteria in was gonna be a mixture of lots
09:36 stuff. We're gonna chew down that . So it's a matter of what
09:41 the types of things that may be there? Maybe it's a fat heavy
09:45 for example. That may slow it that slowdown is not because of the
09:50 to inspire and to it down it's of the solid ability of the
09:54 So there may be an issue with that can get that might limit the
09:58 . But you know it's always about sample generally. You know it's that
10:04 be an issue but maybe but but are all kinds of companies beyond wastewater
10:10 systems that have these plants right? kinds of manufacturing facilities have plants as
10:15 that will take care of their ways they discharge it into public waterways.
10:19 so there's gonna be more specific in of the types of materials that are
10:23 there that may have the effect you're about. Okay yeah yeah. So
10:34 so let's uh look at here. so B. O. D.
10:42 auction man again correlates to the amount organic material present and from the axis
10:51 the graph. So let me show . So milligrams of the premier results
10:56 dr so that may be a quantity not sure sure. Okay well what's
11:01 mean in terms of oxygen? What's a lot And what's a little.
11:04 right. So if you have a like of raw sewage that can have
11:09 value of an excess of 600 mg leaders. Um Now in terms of
11:17 on aquatic environments. Okay the level Saturation air saturated water has eight mg
11:27 . So in order to have an on aquatic life you got to get
11:31 around five or less. Then you to impact uh fish for example.
11:37 these organisms that of course have a higher oxygen demand being complex eukaryotic organisms
11:45 type then it won't take a lot begin to negatively affect them.
11:52 So it doesn't mean when you because you have these areas that have these
11:56 kills, did you run off of bot and talk about how that
12:01 But it's not like the the oxygen the water is going to zero.
12:05 doesn't have to you can just go to maybe The value there was like
12:10 bluegrass clear of oxygen or water. that's enough to to cause cause
12:15 Okay. Um and so the photo on the upper left shows what you
12:24 see in wastewater treatment uh a lab a wastewater treatment facility. So here's
12:30 probe oxygen probe to have several containers samples. Typically what's done is to
12:37 a wastewater treatment plant we're gonna of have material coming in, material going
12:41 . It's continuously running right? And gonna take examples of different points to
12:47 how the system is working right now seeing a reduction of D.
12:51 D. And you'll measure samples and reflected the various rates of of of
13:00 activity basically. So but you can't what you might call more fancier systems
13:06 can do this continuously. That's what is. Okay so you have the
13:11 sample coming in into this tank here's deal program that comes and goes back
13:15 so it's operating continuously giving with continuous . And of course these things are
13:20 controlled um and and give you of immediately feedback on how the system is
13:29 . Um Now so when we look um areas where you may have excess
13:37 . O. D. Organic material put into the water system, Mississippi
13:43 is one example of course spans the entire United States north and south,
13:49 almost in the middle of the country of. Um And of course that
13:55 is going through various types of urban areas etcetera but also through um
14:03 of agricultural areas. Okay and big agriculture uses fertilizer. Okay. And
14:11 excess fertilizer and then that can be problem when rainfall can cause run off
14:17 the excess fertilizer is not used into of water. And that can lead
14:24 than uh these nutrients nitrogen phosphorous in as well as knowingly or unknowingly dumping
14:32 pollutants into the water by chemical companies of course yield me too growth,
14:41 growth of microorganisms. Okay so normally are pretty much in balance for the
14:47 part or nitrogen and phosphorus and lots different kind of very limiting.
14:53 So when there's an influx of these will cause microbes to to really grow
15:01 during these times and that can be . Okay. And so um what
15:07 happen is and so you see the oil spill from 10 years ago.
15:12 oil slick, you see there on right um Of course that's organic material
15:17 certainly food for bacterial types. And the again aerobic respiration right? Will
15:24 auction out of the water, lowering levels. Uh that would be
15:29 to aquatic life in the area. . So uh you see there's this
15:34 here, this was of course So a couple of decades ago.
15:39 the area off the coast of Louisiana where was what we call these hypoxic
15:44 , areas of low um auction levels necessarily completely devoid of life but likely
15:53 solution types that can live there probably be like bottom dwellers. I'm guessing
15:57 maybe can tolerate of lower oxygen Okay. But certainly an impact on
16:04 ecosystem there now. But again it's a book respiration, right? But
16:11 that are there and have the source grow exponentially and as a result of
16:14 activity auction almost low. Right? Now when we look at um
16:24 let's take a take a stab at one as we look at eutrophication.
16:31 . And um this is the process kind of talking about. But um
16:39 it's a stepwise process with one group there, another group proliferates. And
16:44 all kind of happened in the stepwise triggered by influx of nutrients and this
16:57 a process you've probably familiar with occasionally would be outbursts of algae in the
17:07 off the coast where these allergy types ones that produced these toxins. And
17:13 that what's called the red tie. I guess I think it's what it
17:16 called. These are products of these of phenomenon. Mm hmm. If
17:48 not sure, it's okay. We're go over here in a second.
17:53 right. Yeah. Okay. So is diy. Right. So let's
18:07 through. So a actually resulted in decreased and content. Ultimately, that's
18:15 difficult effect of this. Uh initially actually initially increases the content of photosynthetic
18:21 of allergy cyanobacteria actually bloom. They it bursting growth. Um once they've
18:31 up all the nutrients that made them in the first place, then they're
18:35 and they die. Okay. And that's what bacteria feed on to create
18:40 . D high loads of aerobic bacterial . Okay, so let's just look
18:46 it here. The next slide. , so we've got uh this could
18:54 again, it could be agri stream through a farmland, uh where you
18:59 have fertilizer runoff. Remember fertilizer contains and phosphorus and these nutrients are generally
19:06 in the environment. Right? So you provide the excessive these these will
19:10 my probes to really burst in terms growth rates. And so in water
19:16 course you have a lot of allergy bacterial types and others. And uh
19:26 only need an influx of nitrogen Remember photosynthetic types of sunlight. You
19:32 they're in water right electron donor. Just give them some C. 02
19:39 will be available. But then given influx of nitrogen phosphorus then they'll really
19:45 growth. Okay And so it can so much that it creates this matte
19:51 map of growth on the surface of body of water. And um this
19:59 they call us an algal bloom. obviously that excessive growth can be
20:05 So the nitrogen phosphorus that was dumped well nice to be depleted. And
20:10 now this massive growth can't grow anymore it dies. Okay so now that
20:15 food for those typically in the So these header trophic bacteria live in
20:20 sediment it's at the bottom and they then begin to feed on that food
20:27 . All right so this is where the aerobic respiration kicks in and uh
20:35 oxygen levels in the water. Okay hence you get these fish kills.
20:40 . Um This has been documented in and certainly the pacific in the Northeast
20:47 States there have been instances of these fish kills and elsewhere all do really
20:52 these influx of nutrients. Um Any about that. Mhm. Yes it
21:02 looks back to it being normal Right. Yes it will eventually eventually
21:09 back to um um sustainable levels of . Both as the uh Hetero tropes
21:17 will deplete that their food source. we'll come back to normal eventually,
21:21 , but there you will have fish belly up on top of the water
21:25 sure. And not necessarily because you have a huge dump of material into
21:33 if it's like a pollutants being dumped by a company that can be more
21:37 than you think americans go very fast so we'll return back to normal.
21:42 Yeah, that timeframe, yeah, gonna probably be a little slower.
21:45 , absolutely. Right. Um Of a number of factors play into that
21:51 is um you know how much stuff dumped in, how much activity
21:56 How far back does it have to from from where it was at
22:00 So yeah, but yeah, eventually will come back to normal, so
22:04 will adjust any other questions. so All right, so this is
22:14 example of the kind of um uh the one lower. Lower right
22:21 you typically see in residential areas um I mentioned, not only are these
22:28 the purpose of wastewater treatment, but and um supplying clean drinking water,
22:36 many manufacturing companies have these as well they produce typically harsh chemicals as a
22:44 of their process and before they can that into nearby streams and rivers and
22:52 ? They have two reports treated Okay. And uh they will often
22:59 from an economic standpoint sort of constructing of these structures, We'll dig lagoons
23:05 the ground. So like a man pond if you will these agreements will
23:09 where they will discharge the waste and can have kind of these floating things
23:14 top of the water that will help aerate and mix mixed water. One
23:19 the things kind of the one of couple of things when you when you
23:25 at wastewater treatment is for for optimal you a when a knockdown beauty reduced
23:35 levels of organic material and then you your promoting microbial growth. Okay.
23:42 is um you also need to promote settling of materials, the water being
23:52 . Okay so it's gonna likely come to the system looking like brown
23:58 Okay, but you weren't leaving looking clear. Okay so the combination of
24:06 activity breaking down and through plus settling that out. Okay so remember that
24:13 only the the the non cellular chemical making a bot okay, proteins.
24:24 what have you okay are contributing blog so do so too do the individual
24:32 themselves. Right? We're all Right? So individual cells are also
24:39 . O. D. So that's the wastewater treatment system you don't want
24:43 get course break down all the organic but you also want to have the
24:47 settle out because that contributes to bot well. So you don't want them
24:51 . So you want you want to your samples, your water coming
24:55 Right? So sediment tape knocking down and sedimentation are the keys here.
25:02 , so to promote to promote um respiration, what do you gotta
25:09 You gotta mix things up right, air in there. Ok, so
25:14 these kinds of systems that are rather , you can see the tank
25:18 Okay, that um this up here both a ramp, we can walk
25:26 an example if we need to underneath have kind of this big blade blades
25:33 just rotates and mixes everything. It reads it. So you get
25:40 going okay? And so that's key promoting the aerobic restoration. Okay.
25:46 so you can see kind of structures in these tanks there there these are
25:51 blades that will rotate, mixing and here's another kind of angle on
25:58 And so so different treatments. So you materials as flow comes into the
26:06 . Having seen these things in you're be amazed at what comes into
26:12 thing you can have like tires, animal carcasses. What happened?
26:19 so you have to have a way filter that stuff out obviously. And
26:22 kind of the first rough filtration, you will is this preliminary treatment which
26:28 these kinds of solid debris and large like this. Okay, and then
26:33 down to more final filters, screens you will to uh remove uh insoluble
26:43 in case that second primary treatment and secondary treatment is where the action
26:48 Right? This is the microbial activity occurs to you. Lower. Okay
26:54 again you want to promote marriage. . And so Senator treatment will do
27:01 . So you see there's there's gonna through typically through mixing. Okay.
27:06 you can have bubbling action going on well. Um You may you may
27:11 may not have a tradition of This is where anaerobic digestion will likely
27:16 . Okay you can have that activity on as well. So what we're
27:21 to just focus on the oration secondary that that that are common to all
27:29 systems. Now the tertiary treatment this certainly for facilities that um I'm gonna
27:37 this water for to make clean drinking . You're going to disinfect you know
27:42 pathogens and things by adding chlorine. ? Chlorinated water. Uh Some use
27:47 in combination with UV light as well disinfect. So these are certainly part
27:52 the process. It was going to used for that purpose as drinking
27:57 Okay so here's another picture of So again uh the preliminary and primary
28:07 here uh so the clarification this is the sedimentation is going to going to
28:12 . Okay so activated sludge. Think that as just the act of
28:19 Right because we have a culture of that are um doing the work.
28:24 ? So we refer to as activated and so it can be recycled.
28:30 as it breaks down bot and it out that can be recovered. It
28:36 be reused over and over. So this is not a system that's operating
28:41 ? 24/7. Right? And so actually a sludge can be used over
28:47 over again. Okay if there is upset which invariably occurs at some
28:53 okay because maybe waste is coming in that may contain some some slightly toxic
28:59 that the cells can't handle. And they'll take a hit. Alright.
29:04 so that will cause the system not be operating optimally. Okay there's different
29:10 you can do. And in my life I worked for a company that
29:14 part of the business was wastewater We we grew up particular types of
29:19 to to add two systems when they're periods of distress uh well and nutrients
29:25 help them recover. Okay. Um you can also um actually this treatment
29:33 treatment systems certainly our proximity to each around Houston you may have a functioning
29:39 that's working well maybe a couple of away. You could and it is
29:44 . Go over to them and say let me have some of your activated
29:48 . It was pumping into a a truck or something for you and you
29:51 it back to your place that's not fully and dumped somebody at it.
29:55 it's just like you're not just sitting and you're not seeing them pop it
29:58 there, right? It'll get So that's an option as well.
30:03 can also manipulate. Um So this all all flowing right? So you
30:08 you can adjust flow rates of these . Maybe you have something that's not
30:13 right? Well let's flush it Let's just crank up the florida so
30:17 can get rid of that bad stuff then return back to normal. There's
30:20 engineering non biological engineering thing you can as well. Okay. But the
30:26 is to have healthy activated sludge microbes there chomping down that bot and they're
30:34 out right? That's the other thing promote. Okay so it is obviously
30:39 an ecosystem unto itself in here. ? Combination of bacteria and protozoa zones
30:45 are which are important to the process well. So so yeah bacteria doing
30:52 the heavy lifting of knocking down be zones have their role as well.
31:00 so so the organism organism is really the work and hear what were called
31:05 tropes. Okay these are types that on really decaying matter. Okay.
31:12 subheading or the same thing as Composers. Okay feeding on decaying
31:18 Okay. Um and so here's kind a cross section of protozoan types.
31:24 see a wastewater that and things like are your water bears, they're called
31:33 stops are fixed in position by these . If you will have like Celia
31:39 are rotating and taking food in. may have things that are crawling along
31:46 that amina will be present. Those have done which where people work for
31:53 long time. They can look at sample of wastewater under a microscope and
31:59 can tell something about the health of system by you know our protozoan is
32:04 . Which types are present. I tell you things about the age of
32:10 system. The health of the I am not that experience in that
32:17 this room hearing from others that um zone is going to be more sensitive
32:23 upsets than will be bacteria. So hint that you may see a knockdown
32:27 in protest zones could be a indicated maybe not right with your system.
32:34 something maybe toxic. And gotten in because they will be the first ones
32:37 . So anyway, there these are of markers you can use to kind
32:41 see is the system working right? . So um so here's a
32:48 So why are predniSONE is important So so again, the key here
32:54 sedimentation. Right? Promoting settling. how do we do that? So
32:59 treatment bacterial growth that promotes this are that are called filament. This
33:05 Right? Very long strands. Let just show your pictures here on the
33:11 right here. So you see some of these types. These are filament
33:17 here. There are several species of . These types are more kind of
33:22 like types of bacteria called Procardia. . And so by performing these filaments
33:28 it's kind of branched growth. That's comes together. That plus the production
33:34 these uh these polymer materials. We about this before ph b starch.
33:40 . These are produced the kind of coalesce everything. Right? So,
33:45 you create these these what we call , fellow CS. And so you're
33:52 to promote good block formation. And because forming these flocks will be
34:02 settling my gravity just settle out. . And so within these flocks of
34:07 you can trap zones and back other and they settle out. Okay.
34:14 , um So what are the So is the bacteria? The primary ones
34:20 down blog. What's the likely role the protozoa wins? They're one of
34:27 main wild guess I'll take anything what to be doing. There's no wrong
34:37 something. Anything. Give me What are pros owns doing? What
34:43 the pros always eat? Stop what of stuff. What's the most likely
34:51 they're reading on that slot. That's the bacteria. But the But
35:00 that's the target. Are those So gonna have painting? Because I said
35:06 not only does the organic material, chemical constituents of the organic material contribute
35:13 bot. So did the individual Okay. So you don't want you
35:21 have great settling. Okay. All . so you can have great
35:31 right? This may go sediment making clear solution. But you've got these
35:38 here, right? You don't want hanging around because that's that's part of
35:42 B. O. D. so you got the pro zones help
35:46 those out right? And proper zones also settle out ah being larger but
35:53 they will get caught up into the as well. Okay, so um
35:59 that's what I'm trying to promote. good A ratio really of these filaments
36:03 types protas owns right to get good . Okay. And so um if
36:11 have too much, Right? So if this becomes a big, just
36:16 up a second, if it becomes big um and accumulation Of these flocks
36:27 one big mass. That's not good . Okay, so you want these
36:32 somewhat individual units that settle out these . You don't want to have one
36:38 massive thing blob. Okay, because will not sell, in fact it
36:44 trap gasses that are forming, it make like a a scummy foamy layer
36:48 top. Right? And that's not either. Right? That's called what
36:52 called bulking. Okay. And that's good. Okay, that's not conducive
36:57 settling either. So that's where you too much of this limited types.
37:03 , so it's a balance. And and that's a one of those
37:07 You can control kind of through flow , you can kind of increase the
37:11 rate to get rid of that Okay so then come back to normal
37:15 there's lots of things you play with you're trying to keep these healthy system
37:19 . Okay. And so um the so here on the right is uh
37:29 done a lot from treatment systems to the quality of their settling and
37:34 right? So it's starting at the at T. Zero. There's two
37:39 and especially just a graduated cylinder and just pour it in and you have
37:43 stopwatch and then you see over time we're going over time. Is it
37:51 ? Right? So you see the on the right, it's getting
37:55 more clearer faster than one left. representing a time point Further down the
38:01 in the previous one. But nonetheless that's kind of the thing you're looking
38:05 . Is there's good settling occurring, ? If it's if it's not selling
38:08 all then you obviously have problems but to fix that but it's very common
38:15 a parameter is called SV. I volume index. Don't even know
38:20 But that's uh one of the other that we used. Um So it's
38:30 wastewater treatment portion finished. Any question that. Okay so again I guess
38:38 goes on nonstop and you're around your uh to to uh as well as
38:46 places too knock down being in the systems drinking water or to be able
38:53 discharge safely into bodies of water. . Um Okay, so here's a
39:00 of questions that relate to the next . Okay, so we'll go through
39:04 cycle and some aspects of that. , so there's two questions coming up
39:10 . So the conversion of nitrate to is called. This is something we
39:16 overlap. We talked about this in chapter 14. Oops. Sorry,
40:13 , winding down here. Okay, let's see. So we get D
40:22 a consensus. Let's look at the one. Yeah. So ammonia,
40:27 ion, which in the end product which process or processes, where would
40:35 be an end product? Not that . Yeah. Mhm, mm
41:18 Mhm. Mhm. Alright, so for the 1st 1 is correct.
42:02 , so for the second one who E. As an eagle? Mm
42:08 . So, I know that 23 did. So which of the 23
42:13 there? Who's 23 who answered? . Who answered E. Come
42:21 All right, let me just look names then. Okay, so who
42:24 come on to hazard. E. sakes. All right. What what
42:28 what to choices. Okay, so E. So what are the
42:40 yep. Not to mention fixations, . What's the other one? That's
42:47 the E. Is the correct but not mention fixations. One.
42:50 the other? Yes modification. I just tells you that the answer.
42:58 , That and that. Okay, modification means to produce ammonia and you
43:04 that through um breakdown of proteins Um And so um National cycle which
43:13 mentioned here and there throughout the Uh And it also also in
43:20 So let's get this out of the . So nitrogen of course has a
43:25 of different oxidation states. Biological adam biological compounds. Okay so from the
43:35 oxidized most reduced. Okay up here . Right to least reduced or most
43:49 form down here. The nitrate. so we saw in 14 how these
44:01 more reduced forms are used as the by with the trophy for oxidation.
44:07 ? Ammonia oxidizing nitrite nitrite to And then using these more oxidized forms
44:15 on down to nitrogen as terminal except right for anaerobic respiration. This is
44:24 remember assimilate. And so the nitrogen and nitrogen components some processes are a
44:31 story. They hang on to Some are dissimilar story. Let go
44:34 it. Okay. And the identification one that is the similar party.
44:40 so um but again remember here the of an election cycle. Okay.
44:48 driven pretty much only by bacterial Okay. All sides of the
44:54 All right. To their the importance it is for sustaining producers. Remember
45:03 ecosystem what's the foundation of plants and ecosystems algae santa bacteria in the
45:11 And so what are these photo autotrophs well sunlight water C. 02.
45:17 . They can't make their N. P. So they rely on microbe
45:22 activity for this. Okay and so and of course we indirectly our answer
45:31 um require that because we feed on animals that require these things. Okay
45:38 or we eat these plants directly. So um and so in terms of
45:45 mattresses into the atmosphere. Okay this appeared into back into the environment.
45:55 done through primarily through symbiotic relationships between and certain bacteria and plants. Okay
46:05 artificial way to do this which is done and the way fertilizers are still
46:09 is this haber bosch process. Okay hydrogen gas to form and that occurs
46:18 extremes of temperature pressure using metal Okay whereas that same not the
46:25 The reactions are still theology but the that do this do so obviously ambient
46:33 at atmospheric pressures. Right So um it is how the bulk of the
46:40 in the environment gets into usable forms our environment. Okay So So all
46:49 sides here. So again you have um what are called free living nitrogen
46:56 bacteria that do it on their own supply their own nitrogen source for
47:03 But the most more significant activity comes these types that have associations with specific
47:11 . We'll talk about that here in second. So that of course brings
47:15 into from the atmosphere into terrestrial and ecosystems. Okay then um in the
47:23 of ammonia. Okay and Luther trophy will do notification. These bacteria utilize
47:33 as a electron source oxidized forming nitrite nitrate which can then be assimilated.
47:43 And then the application is what allows to escape back into the atmosphere.
47:51 remember that that kind of triangle. organisms are using the nitrogen compounds as
47:57 except ear's right, anaerobic respiration. the ones over here notifications are using
48:05 as a source electors oxidizing component. so um so a modification metabolism of
48:18 sources. So we of course can it out breakdown of protein. We
48:24 ammonia. Uh It can be some these reactions can be a similar
48:29 Summer dissimilar story. Right. But know proteins contain amino acids which contain
48:35 groups. So you break those down that's released. That's the source of
48:39 family. Okay. Um that can you know when decomposition occurs it can
48:46 high and ammonia as a byproduct. can have effects in terms of ph
48:52 of Monique is basic And so you have effects that way in the
48:57 Um particularly in um in uh fish in fish tanks have to constantly constantly
49:05 check in terms of ph right? of fish waste. Right? You're
49:10 contained tank. Fish waste occurs. what causes upset from ph in the
49:15 tank. Right? So you know you have to have ways to get
49:18 of that stuff. And so you actually use Nike refining bacteria to get
49:24 of it. Okay. And to the system back to normal. Um
49:31 let's look at different sides of this here. Okay With nitrogen fixation
49:36 Right, so this side over Okay, so um so this will
49:46 a similar story process. The end will be utilized by the organism.
49:53 like I said, the more significant here is with those that have mutual
49:59 with plants. Okay. Things like plants, peanut plants, alfalfa,
50:08 clover. These are all kinds of that have these associations. Um But
50:16 are free living types. As I , I don't have the associations they
50:20 fix into but their contribution is minimal to the other types. Okay,
50:27 what you can see which you may be aware of this, but these
50:32 genera of bacteria, Klebsiella, Clostridium . These are widely different bacteria.
50:40 , gram positive gram negatives, thorough bacteria can different species can carry this
50:48 , election infestation out. Which means is a this is a process that
50:54 was likely transferred to these different types what we're going to talk about next
50:58 , which is horizontal gene transfer. transferring genes between species. So because
51:05 such a diverse type of species that this one property. It was likely
51:10 by that. By that mechanism. . And so um the nitrogenous is
51:18 enzyme. So it's a process itself very energy expensive, right? Like
51:24 Https to carry to convert one Um and uh and he is very
51:34 to oxygen. Okay, so you that organisms that do this particularly the
51:40 types, they compartmentalize the process to it away from oxygen. Okay,
51:47 the charge and this is very susceptible that. Okay, so you're gonna
51:52 to have a couple of things for to function a keep oxygen away.
51:57 have lots of energy available to do . Okay. And so um the
52:05 nodules are part are really the compartmentalization of the process in symbiotic type.
52:11 the nodules are aware this activity occurs from oxygen. Okay, um and
52:19 see little knobby things here are the on the roof. Now, in
52:26 the synthetic bacterial types cyanobacteria. They of these can also carry out natural
52:33 and then again they compartmentalize the So but every so these are the
52:39 ists where national fixation occurs only that's in these structures in between. Are
52:47 vegetative cells. So we heard that before in the context of indoor
52:51 you have vegetative cells. You have sports. Right? So these are
52:55 vegetative cells, your normal functioning cells ? With all the properties of that
53:01 these are differentiated terraces. So remember course that these are oxygen. IQ
53:08 . So they're gonna release oxygen. you want to keep that away from
53:11 nitrogen fixation process. So that's why compartmentalized in these hetero cysts.
53:18 And so um so looking at the of these symbiotic types. Okay so
53:27 it's it's not a random association is specific between material species and plant
53:33 And um there's chemicals being that are the whole thing, chemo attractants that
53:40 bring these together. Okay. And here is a cross section. All
53:46 begins and occurs within the roots of man. Okay, so in the
53:54 will be back east bacterial types will attracted to a particular species to these
53:59 hairs. Okay. And these chemicals nod factors or promote and initiate the
54:08 . Okay, very important is the effect of these root hairs.
54:16 that's what initiates this infection process. . It was called in veteran
54:23 All right. So will migrate The cell type in the plant and
54:28 root and then differentiate into these back roids. Right? So the back
54:34 is the differentiated form of these cells the plant. The plant root.
54:43 . And again he's become like a a nitrogen fixing compartment within the within
54:48 plan. So um the uh So let's look at kind of a
54:57 up of that here. So again energy needed is a lot not just
55:03 teepee but N. A. H. As well. Right?
55:06 represents a lot of energy. You to do this. Okay. and
55:11 here close up of a back droid of a room. Okay so here
55:19 the tragedies. Okay. And Two comes in the future is in
55:25 reacts with nitrogen enzyme plus lots of in the form of a TP to
55:31 ammonium ions that the plant will Okay. Um But within the back
55:38 also is aerobic respiration goal. That's what's gonna generate your https to
55:43 this. Okay so the problem is is a part of the process.
55:49 ? So uh a plant product is leg hemoglobin that comes from the plant
55:58 that will bind like hemoglobin in our . It binds oxygen. Right?
56:04 this helps you control the levels of that the enzymes exposed to. Okay
56:12 it will allow auction of course to as a terminal except for reparation.
56:16 ? Because that's what's gonna generate all A. T. P.
56:18 Okay. But you don't want you want it to diffuse so much into
56:24 so that it poisons the next certification . Okay so like hemoglobin is what
56:33 that to happen. Okay. Um of course obviously the symbiotic relationship and
56:40 bacteria have fed their fuel, they ammonium for the plant and both are
56:48 from this association. And so uh he was just various pictures. You
56:54 nodules on the soybean roots here. The uh and so these will be
57:02 just give you a picture. Let's back up one. So these will
57:06 the modules, you see that seem be external to the root. Part
57:10 it is as they kind of get , that kind of bulges out
57:13 And that's what you're seeing on the root hairs. Are these bulges but
57:17 a portion of it is interior in in the plant roots as well.
57:21 you can have a party in and hanging out as it kind of gets
57:24 . Okay. And that's what you here. Okay. So all of
57:29 is this is visible to the naked outside. There's a part of
57:32 The tip of it is in the root. Okay. Uh this is
57:37 the individual cell would look like. not that's not a bad steroid
57:41 Okay. Um and these are a of back towards within the root.
57:47 um so one of the things about plants is the soybean plants. And
57:52 types of the associations they can live kind of nutrient poor environments.
57:58 Plants can grow and kind of sandy . That's not very nutritious uh where
58:04 plants won't grow, but they have own nitrogen source with them. So
58:08 able to to inhabit these areas. . Um now the let's see what
58:18 anything about nitrogen fixation. So 19 notification. Right. So we talked
58:26 this already a lot. So this is little trophy. Right,
58:31 these bacteria are using this as a of electrons oxidize it feed their electron
58:36 system. So there's two types. type. I don't believe there is
58:41 type that carries out both reactions split two groups. So nitro Simonas carries
58:47 the first one which is ammonia and . And then nitro factor nitrite and
58:53 . Um And so those that are vigorous with this activity is notification will
58:59 these membrane folds that you see And they're stuffed full of these night
59:05 . Yeah enzymes. Okay. The this is one that's not in your
59:11 . I wanted to add it just show you that nitrate can also go
59:18 route which is what is in a story route. Okay, so nitrate
59:25 to ammonia which then gets incorporated into acids. Okay, this is what's
59:30 a similar story nitrate reduction. Um and so um Mhm And so
59:39 we talked about how you know in of this material can lead to um
59:46 over production. So you can get lot of nitrate. A lot of
59:51 . Those can only city, they they can alter the soil ph or
59:55 aquatic systems. The ph there. it is something to be aware
60:00 Okay. Um now the the identification also talked about. Okay, so
60:09 this is that side of triangle that anaerobic respiration using these nitrogen compounds that
60:16 more oxidized forms as criminal except Okay. And so it does lead
60:21 of course the loss of nitrogen from environment. Hence the stimulatory.
60:27 Um now one of the things is areas where you have you know
60:33 O. D. Run off and saw how an excess of that can
60:37 to lots of variable respiration initially that oxygen. Then it becomes anaerobic.
60:44 . And that can trigger than lots deny petrification. Okay. And so
60:50 danger there is the production of this . Okay, N. 20.
60:57 is a worst greenhouse gas than Two. So we talked about a
61:02 of things other than C. 02 a greenhouse gas. There's um previously
61:06 methane from methanol genesis is the worst gas. And then now n.
61:12 a byproduct of the notification. Okay um so the um let me just
61:20 over to this slide here, I'll back to that. So here is
61:24 example of of the coast of Okay so we have hi B.
61:29 . D. Contributed likely through run of the pollutants of some sort of
61:36 that are feeding more organic material into oceans. And then uh root respiration
61:43 , reduces oxygen levels and then we a zone of hypoxia lower oxygen
61:49 Okay And then that can trigger the . So here's the application steps.
61:57 . And so we started with Right? Black grab mine nitrate nitrite
62:06 high. And then as identification ticks Alright, becomes utilize nitrate and
62:15 It goes up and my arthritis then to into oh, that means to
62:22 up. And so into What was greenhouse gas. Okay. And then
62:28 course that can be um shown reduced them to end too.
62:33 And then then leaves the environment. , so um again, this process
62:39 triggered by what we've talked about The High BMB creates the situation of
62:44 oxygen levels and then this can kick and identification. Okay. Leading to
62:52 release of of in two of the gas and and actually being in the
62:59 . Okay, So because this is terrible desperation, this is going to
63:03 under conditions of low or no Okay, that will be promoted in
63:08 situations. Let's just go back to I skipped over here. Okay,
63:15 alternate routes, this is a another . This is um that's this is
63:23 . Rather change that. This is torrey. It's similar Torrey. Check
63:33 . Mhm. This similar tori. , um so this is the instance
63:40 ammonia is actually leaves the system. here this is where nitrate is used
63:45 a terminal except er Okay, so not, it doesn't become assimilated.
63:50 uh reduced to ammonia and then leaves system. Okay, But it It
63:57 on the oxidation of hydrogen gas to the introduction of nitrate. Okay,
64:03 it's little trophy because we're using H2 our energy source anaerobic of course because
64:09 using nitrate to aspire with. But it is a form where this
64:15 not used. It leaves the Hence the similar story. Um And
64:22 that and the notification the process up leads to loss of lecture from
64:29 Okay. Um and so Okay so animosity reactions. So for the longest
64:37 back up this process here de This was thought to be the primary
64:47 Which nitrogen was lost from environments on . Okay. Until about 10 and
64:53 years ago when this reaction was found called the animatronics reaction. Okay so
65:00 is using ammonium. Alright again as electron donor and nitrite being reduced to
65:10 to. Okay. And so this in the species plant Oh my
65:15 Okay that um is primarily a marine . Okay. So in prevalent in
65:27 large quantities in marine environments. So the vastness of oceans on earth.
65:31 . This is why it accounts for most of the end to being return
65:37 to the atmosphere. Okay, conversion ammonia connection gas. Okay. And
65:43 that's that is now known to be primary way in which connection is lost
65:49 earth into the atmosphere. I'm Um Okay so this there are the
65:58 processes we looked at in terms of cycle um Again just think of the
66:04 . Okay. One side will bring in to the environment through fixation forming
66:10 harmonia and then certain types will use as an energy source. Break it
66:16 a little trophy into nitrate. And those compounds were successfully reduced as terminal
66:24 ear's and honorable restoration to ultimately form which has lost. But then within
66:30 within like processes that are a similar to help hold onto the nitrogen,
66:36 are discriminatory. Get rid of Okay. But a obviously critical to
66:43 here on this earth. Um, questions? Okay. Yes. Uh
66:54 hmm. Is there any chance that could be like how? So so
67:07 know how there's some of the components the so would that not for that
67:16 the mandatory presence? I think it to do with I'm not sure what
67:22 mean by bypass because if in in where these planting my seeds are,
67:27 what they're carrying out. I'm not how the state will be processed into
67:31 gas. Okay. The way we about it is it's a bunch of
67:37 processes for different. Yeah. It depends on what's what's present and
67:45 Yes. Yes. And so within as well. There's a whole regulation
67:50 nitrogen. But then which is very . And so also has based on
67:55 need and whether they assimilated assimilated So that too. Yes. There's
68:01 question that that's it. We're done . Um, see you on
68:16 Yeah. Uh so I was doing of the homework and some of the
68:43 answers were kind of contradictory to like uh like that, can we
68:51 go off the slide and that's what's yeah, I have questions, but
68:58 I just get over stuff, so terms of seeing every single question
69:04 so I'm not, every online platform ones here that are kind of so
69:11 , but you always go
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