Did we know that well over 50% of the oxygen we breath comes from plankton? Then, this oxygen, whether it comes from terrestrial plants ,plankton, or whatever is a waste product of that organism. Plankton and other plant organisms eat Carbon Dioxide and expel oxygen. We are affectively alive because of some low life forms, or microbes poop. . . .It's the little things in life that count.

Plankton can be converted to a high yield bio fuel. Heavier concentrations of plankton are found in the Bering Sea for a number of reasons. Chief of those reasons is the amount of sunlight/photosynthesis as the earth tilts in that direction during North Americas spring - summer - fall. Another smaller area where heavy concentrations are found is up against the coast of Korea. Linking that Korean concentration with the wealth of bio fuel potential, let's me speculate, or at least ask the question, is this another reason we were involved in the 1950's Korean conflict? We should know of course that the government doesn't tell us everything. Anyway it would make a great spy novel.

Carbon Dioxide in the atmosphere is pushed down into water where plankton eat it. This is a boon to preventing global warming. Because there is a limit to what plankton can do, we humans still have to limit the amount of Carbon Dioxide we produce. "They" are even thinking about artificially growing plankton to add to it's overall world capacity to eat more and more carbon dioxide. A band aid on a deep internal wound.

Plankton is a primary producer in the food chain. Follow the plankton and you will be effectively following the fish you want to catch. There's a lot more to it than just that but, I thought that comment alone is interesting. Taking it further, since plankton eat carbon dioxide; their reproduction will be greater where greater concentrations of carbon dioxide are found. You can use this stuff to find and catch fish.

I'll fill you in at a later time. But if you tell me to "Shut up and fish" I won't do this any more. I have feelings don't cha know.

The Grinch

Ok RJMJZ, Now how far down does CO2 get pushed down into the water? Does it get pushed down to the thermocline or farther?

Ok RJMJZ, Now how far down does CO2 get pushed down into the water? Does it get pushed down to the thermocline or farther?

There are three major types of plankton. Phytoplankton, Zooplankton, and Bacteria plankton. Phytoplankton produces oxygen by means of photosynthesis. Due to concentrations of certain amounts of oil within plankton ( oil being less dense than water, helps maintain suspension in the water column.) they rise and sink with darkness and sunlight, some higher, some lower depending on the species. All lakes are different but water clarity, underwater currents, strength of sunlight, strength and direction of wind, atmospheric pressure, and physical geography of the basin will determine how deep dissolved oxygen can be found. 100+ feet is not out of the question on particularly clear lakes. Then, after big bad storms with 8 or so foot rollers, the basin is the limit. Not all plankton species produce oxygen. Not all plankton species produce oxygen at the same diminished level of sunlight.

The shallower primary production of plankton occurs the greater its concentration, the more of it is present. These plankton blooms occur twice a year with a bigger one in the spring than in the fall. In between these major blooms, there is some primary production but not as great Most algae/Plankton are pushed by current during the day, and by wind and surface current at night. Yes, there will be times when plankton is pushed deeper than the stratum where photosynthesis can occur, even deeper than the thermocline. This can happen from strong winds and water circulation. Not to worry however, residual or lingering oxygen is still temporarily produced there by the stores within plankton. Too long in the dark and they produce carbon dioxide like any other plant, and water circulation has to pick up the production of dissolved oxygen; too much concentration of carbon dioxide for too long and game fish won’t be there. If plankton does not rise again to the photic zone, they will eventually die.

The Grinch

Do Chinese Laundromats actually know of an 'ancient chinese secret' on how to get my whites so white?

Did we know that well over 50% of the oxygen we breath comes from plankton? Then, this oxygen, whether it comes from terrestrial plants ,plankton, or whatever is a waste product of that organism. Plankton and other plant organisms eat Carbon Dioxide and expel oxygen. We are affectively alive because of some low life forms, or microbes poop. . . .It's the little things in life that count.

Plankton can be converted to a high yield bio fuel. Heavier concentrations of plankton are found in the Bering Sea for a number of reasons. Chief of those reasons is the amount of sunlight/photosynthesis as the earth tilts in that direction during North Americas spring - summer - fall. Another smaller area where heavy concentrations are found is up against the coast of Korea. Linking that Korean concentration with the wealth of bio fuel potential, let's me speculate, or at least ask the question, is this another reason we were involved in the 1950's Korean conflict? We should know of course that the government doesn't tell us everything. Anyway it would make a great spy novel.

Carbon Dioxide in the atmosphere is pushed down into water where plankton eat it. This is a boon to preventing global warming. Because there is a limit to what plankton can do, we humans still have to limit the amount of Carbon Dioxide we produce. "They" are even thinking about artificially growing plankton to add to it's overall world capacity to eat more and more carbon dioxide. A band aid on a deep internal wound.

Plankton is a primary producer in the food chain. Follow the plankton and you will be effectively following the fish you want to catch. There's a lot more to it than just that but, I thought that comment alone is interesting. Taking it further, since plankton eat carbon dioxide; their reproduction will be greater where greater concentrations of carbon dioxide are found. You can use this stuff to find and catch fish.

I'll fill you in at a later time. But if you tell me to "Shut up and fish" I won't do this any more. I have feelings don't cha know.

The Grinch

So the plankton and algae etc. thrive in locations where there are the highest CO2 concentrations? Wouldn't those locations be around heavily used boat ramps:peepwall:

Otherwise my guess would be the Korean side of the lake:)

So the plankton and algae etc. thrive in locations where there are the highest CO2 concentrations? Wouldn't those locations be around heavily used boat ramps:peepwall:

Otherwise my guess would be the Korean side of the lake:)


I think you missed the point Full, it's actually the Chinese side. :fishhit:

I think you missed the point Full, it's actually the Chinese side. :fishhit:


You can catch your fish on the west side of the lake. But I am gonna do it on the east side.

One... two... three...

We' 再看見巫術師美妙的奧茲帝國歷險記我們聽見他是Wiz的專家如果那裡Wiz是如果，哦，那裡Wiz是奧茲帝 國歷險記是一個，因為由于，因為，因為，因為，因為由於美妙的事他做We' 再看見巫術師美妙的奧茲帝國歷險記!

You can catch your fish on the west side of the lake. But I am gonna do it on the east side.

One... two... three...

We' 再看見巫術師美妙的奧茲帝國歷險記我們聽見他是Wiz的專家如果那裡Wiz是如果，哦，那裡Wiz是奧茲帝 國歷險記是一個，因為由于，因為，因為，因為，因為由於美妙的事他做We' 再看見巫術師美妙的奧茲帝國歷險記!

Oops lost in translation

Did we know that well over 50% of the oxygen we breath comes from plankton? Then, this oxygen, whether it comes from terrestrial plants ,plankton, or whatever is a waste product of that organism. Plankton and other plant organisms eat Carbon Dioxide and expel oxygen. We are affectively alive because of some low life forms, or microbes poop. . . .It's the little things in life that count.

Plankton can be converted to a high yield bio fuel. Heavier concentrations of plankton are found in the Bering Sea for a number of reasons. Chief of those reasons is the amount of sunlight/photosynthesis as the earth tilts in that direction during North Americas spring - summer - fall. Another smaller area where heavy concentrations are found is up against the coast of Korea. Linking that Korean concentration with the wealth of bio fuel potential, let's me speculate, or at least ask the question, is this another reason we were involved in the 1950's Korean conflict? We should know of course that the government doesn't tell us everything. Anyway it would make a great spy novel.

Carbon Dioxide in the atmosphere is pushed down into water where plankton eat it. This is a boon to preventing global warming. Because there is a limit to what plankton can do, we humans still have to limit the amount of Carbon Dioxide we produce. "They" are even thinking about artificially growing plankton to add to it's overall world capacity to eat more and more carbon dioxide. A band aid on a deep internal wound.

Plankton is a primary producer in the food chain. Follow the plankton and you will be effectively following the fish you want to catch. There's a lot more to it than just that but, I thought that comment alone is interesting. Taking it further, since plankton eat carbon dioxide; their reproduction will be greater where greater concentrations of carbon dioxide are found. You can use this stuff to find and catch fish.

I'll fill you in at a later time. But if you tell me to "Shut up and fish" I won't do this any more. I have feelings don't cha know.

The Grinch

我們是否知道50%氧氣我們呼吸很好來自浮游生物？ 然後，這氧氣，它是否來自地球植物，浮游生物，或者什麼是那個有機體一件廢品。 浮游生物和其他植物有機體吃二氧化碳并且逐出氧氣。 我們是感動地活由於某種低生活型或者微生物船尾。 . . . 它是計數的小的事在生活中。
浮游生物可以被轉換成高出產量生物燃料。 浮游生物的更加稠密的集中在白令海被找到為一定數量的原因。 那些原因的院長是相當數量陽光或光合作用，因為地球掀動方向在北部美洲期間反彈-夏天-秋天。 另一個小範圍，稠密集中被找到上升反對韓國的海岸。 連接韓國集中以財富生物燃料潛力，我們我推測或者至少問問題，這個其他原因我們介入了在50年 代韓國衝突？ 我們應該知道當然政府不告訴我們一切。 無論如何它將做一本偉大的間諜小說。
二氧化碳在大氣被推擠下來入水，浮游生物吃它。 這是恩賜到防止全球性變暖。 由於有極限對什麼浮游生物可能做，我們人必須仍然限制我們生產的相當數量二氧化碳。 「他們」甚而考慮人為地增長的浮游生物補充說到它是整體世界能力越來越吃二氧化碳。 一臨時拼湊在一個深內部創傷。
浮游生物是一個主要生產商在食物鏈。 跟隨浮游生物，并且您有效地跟隨您想要捉住的魚。 比那更大量有對它，但，我認為單獨評論是有趣。 採取它進一步，因為浮游生物吃二氧化碳; 他們的再生產將是更加偉大的二氧化碳的更加巨大的集中被找到的地方。 您能使用這種材料發現和捉住魚。
我將填裝您以後。 但，如果您告訴我「被關閉，并且魚」我不會再將做此。 我有感覺cha不知道。

Isn't the Oxygen we breathe a result of photosythesis? More specifically, the result of 2 water molecules being split by sunlight trapped within the chloroplast? Isn't the Oxygen molecule in the CO2 (breathed in by the phytoplankton) turned into Glucose when its combined with the hydrogen from the split water molecule? If that's the case Oxygen is now a BYPRODUCT and not the waste of algae or phytoplankton. Also what pushes CO2 down into the water? Just curious...

1.) Isn't the Oxygen we breathe a result of photosythesis? More specifically, the result of 2 water molecules being split by sunlight trapped within the chloroplast?

2.) Isn't the Oxygen molecule in the CO2 (breathed in by the phytoplankton) turned into Glucose when its combined with the hydrogen from the split water molecule?

3.) If that's the case Oxygen is now a BYPRODUCT and not the waste of algae or phytoplankton.

4.) Also what pushes CO2 down into the water? Just curious...

Answers: Boy you really want to put them to sleep don't cha?

1.) Yes. Actually what you refer to is the basis of all life. Water is polar to hold the water together, and because, of an uneven distribution of electrons between the oxygen and hydrogen atoms. All of the electrons in the H atoms (small globules) are bunched to form the bond with the H and O atoms (large globule), so that the tops of the small globules is positive from a lack of electrons and there are electrons otherwise spaced around the oxygen molecule, so that end is negatively charged. Water has a partial negative charge near the oxygen atom due the unshared pairs of electrons, and partial positive charges near the hydrogen atoms. A static electricity attraction between the partial positive charge near the hydrogen atoms and the partial negative charge near the oxygen results in the formation of a hydrogen bond. This helps in hydrogen bonding, because each side attracted to another atom.

2.) There are hydrogen bonds and Covalent bonds. Hydrogen bonds are weak bonds. Covalent bonds are adhesive because of the attraction of positive and negative charges. The hydrogen bonds in water cause them to be cohesive (work together) as well. Cohesion gives water high surface tension where water molecules have greater attraction for one another than they do for the molecules of the air; resulting in compactness of water molecules at the surface. All of this creates capillary action where water squeezing between the microscopic sediment particle molecules, causes water movement. This system is the basis for food chains. It affects all marine life from phytoplankton to zooplankton, to recruitment, to fry, to adolescent, to maturity, and it even effects dissolved oxygen capacity, and the return of decaying material to be recycled. Extended further, this is the basis for all life on Earth.

3.) You are right but you are splitting hairs. If something is cast off and not used it is waste or byproduct depending on whether you want to glucose/candy coat it or not.

4.) The same thing that pushes atmosheric oxygen into the wat. Wind, swimmers, boat traffic, even the circulation of fish and all other oganisms doing their thing in water. Even the water itself as is described in answer 2.) above. Convergeance (comming together), Divergence (pulling apart), and Subduction. Denser material wedging under lighter/less dense materials.

Those chinese explanations threw me off for a minute, but I got it now...clear as algae.:)

Did we know that well over 50% of the oxygen we breath comes from plankton? Then, this oxygen, whether it comes from terrestrial plants ,plankton, or whatever is a waste product of that organism. Plankton and other plant organisms eat Carbon Dioxide and expel oxygen. We are affectively alive because of some low life forms, or microbes poop. . . .It's the little things in life that count.

Plankton can be converted to a high yield bio fuel. Heavier concentrations of plankton are found in the Bering Sea for a number of reasons. Chief of those reasons is the amount of sunlight/photosynthesis as the earth tilts in that direction during North Americas spring - summer - fall. Another smaller area where heavy concentrations are found is up against the coast of Korea. Linking that Korean concentration with the wealth of bio fuel potential, let's me speculate, or at least ask the question, is this another reason we were involved in the 1950's Korean conflict? We should know of course that the government doesn't tell us everything. Anyway it would make a great spy novel.

Carbon Dioxide in the atmosphere is pushed down into water where plankton eat it. This is a boon to preventing global warming. Because there is a limit to what plankton can do, we humans still have to limit the amount of Carbon Dioxide we produce. "They" are even thinking about artificially growing plankton to add to it's overall world capacity to eat more and more carbon dioxide. A band aid on a deep internal wound.

Plankton is a primary producer in the food chain. Follow the plankton and you will be effectively following the fish you want to catch. There's a lot more to it than just that but, I thought that comment alone is interesting. Taking it further, since plankton eat carbon dioxide; their reproduction will be greater where greater concentrations of carbon dioxide are found. You can use this stuff to find and catch fish.

I'll fill you in at a later time. But if you tell me to "Shut up and fish" I won't do this any more. I have feelings don't cha know.

The Grinch

우리는 잘 산소의 50% 이상 우리가 플랑크톤에서 흡입 온ㄴ다는 것을 알았는가? 또는 저 유기체의 폐기물은이다 무엇이건 지구 식물, 플랑크톤에서 온ㄴ다는 것을, 그 후에, 이 산소. 플랑크톤과 다른 식물 유기체는 이산화탄소를 먹고 산소를 추방한다. 우리는 어떤 낮은 생활형, 또는 세균 고물 때문에 감정적으로 살아 있다. . . . 세는 생활에 있는 작은 것이다.
플랑크톤은 높은 수확량 생물 연료로 개조될 수 있다. 플랑크톤의 더 무거운 농도는 다수 이유를 위한 베링해에서 있다. 그 이유의 장은 북쪽 아메리카 가을 동안에 방향은 - 여름 - 튄다 지구가 에서 기울기 때문에 햇빛 또는 광합성 양이다. 무거운 농도가 있는 또 다른 좁은 지역은 한국의 해안에 대하여 위로 있다. 생물 연료 잠재력의 부를 가진 한국 농도, 저 사색하자 연결, 또는 적어도 질문을, 인가 이 다른 이유는 질문하는가 우리는 1950 년대에서 6.25 전쟁은 포함되었는가? 우리는 정부가 저희에게 모두를 말하지 않는다 알아야 한다 당연히. 어쨌든 그것은 중대한 간첩 소설을 만들 것입니다.
대기권에 있는 이산화탄소는 플랑크톤이 그것을 먹는 물로 아래로 밀린다. 이것은 지구 온난화 방지에 이익이다. 무슨 플랑크톤이 할 수 있는에 한계가 있기 때문에, 우리는 인간 아직도 우리에 의하여 생성하는 이산화탄소 양을 제한해야 한다. "그들은" 인공적으로 성장 플랑크톤에 대하여 그것에 덧붙이고 이다 이산화탄소를 점점 먹는 전반적인 세계 수용량 생각하고 있다 조차. 깊은 내부 부상에 응급.
플랑크톤은 먹이 사슬에 있는 1 차 생산자이다. 플랑크톤을 따르거든 당신은 효과적으로 당신이 붙잡고 싶은 물고기를 따를 것이다. 다만 저것 보다는 그것에 아주 많게 있다 그러나 혼자 코멘트가 다고, 나는 생각했다. 플랑크톤이 이산화탄소를 먹기 때문에, 그것을 더 가지고 가기; 그들의 재생산은 이산화탄소의 더 중대한 농도가 있는 곳에 더 중대할 것이다. 당신은 이 물고기를 찾아내고 붙잡기 위하여 재료를 이용할 수 있다.
나는 당신을 나중에 기입할 것이다. 그러나 당신이 닫힌 저에게 "말하는 경우에 물고기" 나는 이것을 더 이상 하지 않을 것이다. 나는 감각이 cha 모른다 있다.

Who's paying you ?

I'll fill you in at a later time.



OK Z. Fill us in.

우리는 잘 산소의 50% 이상 우리가 플랑크톤에서 흡입 온ㄴ다는 것을 알았는가? 또는 저 유기체의 폐기물은이다 무엇이건 지구 식물, 플랑크톤에서 온ㄴ다는 것을, 그 후에, 이 산소. 플랑크톤과 다른 식물 유기체는 이산화탄소를 먹고 산소를 추방한다. 우리는 어떤 낮은 생활형, 또는 세균 고물 때문에 감정적으로 살아 있다. . . . 세는 생활에 있는 작은 것이다.
플랑크톤은 높은 수확량 생물 연료로 개조될 수 있다. 플랑크톤의 더 무거운 농도는 다수 이유를 위한 베링해에서 있다. 그 이유의 장은 북쪽 아메리카 가을 동안에 방향은 - 여름 - 튄다 지구가 에서 기울기 때문에 햇빛 또는 광합성 양이다. 무거운 농도가 있는 또 다른 좁은 지역은 한국의 해안에 대하여 위로 있다. 생물 연료 잠재력의 부를 가진 한국 농도, 저 사색하자 연결, 또는 적어도 질문을, 인가 이 다른 이유는 질문하는가 우리는 1950 년대에서 6.25 전쟁은 포함되었는가? 우리는 정부가 저희에게 모두를 말하지 않는다 알아야 한다 당연히. 어쨌든 그것은 중대한 간첩 소설을 만들 것입니다.
대기권에 있는 이산화탄소는 플랑크톤이 그것을 먹는 물로 아래로 밀린다. 이것은 지구 온난화 방지에 이익이다. 무슨 플랑크톤이 할 수 있는에 한계가 있기 때문에, 우리는 인간 아직도 우리에 의하여 생성하는 이산화탄소 양을 제한해야 한다. "그들은" 인공적으로 성장 플랑크톤에 대하여 그것에 덧붙이고 이다 이산화탄소를 점점 먹는 전반적인 세계 수용량 생각하고 있다 조차. 깊은 내부 부상에 응급.
플랑크톤은 먹이 사슬에 있는 1 차 생산자이다. 플랑크톤을 따르거든 당신은 효과적으로 당신이 붙잡고 싶은 물고기를 따를 것이다. 다만 저것 보다는 그것에 아주 많게 있다 그러나 혼자 코멘트가 다고, 나는 생각했다. 플랑크톤이 이산화탄소를 먹기 때문에, 그것을 더 가지고 가기; 그들의 재생산은 이산화탄소의 더 중대한 농도가 있는 곳에 더 중대할 것이다. 당신은 이 물고기를 찾아내고 붙잡기 위하여 재료를 이용할 수 있다.
나는 당신을 나중에 기입할 것이다. 그러나 당신이 닫힌 저에게 "말하는 경우에 물고기" 나는 이것을 더 이상 하지 않을 것이다. 나는 감각이 cha 모른다 있다.



I can't quite place the regional dialect you have . Were you born east or west of 그들의 재생산은 이산화탄소의 ?

Vern