Nitrogen Cycle in a sentence
Synonym: biogeochemical cycle, ecology.
Meaning: the series of processes by which nitrogen and its compounds are interconverted
(1) Describe the process of the nitrogen cycle.
(2) Azotising is a key step in the nitrogen cycle.
(3) Nitrate is a key component in the nitrogen cycle.
(4) The nitrogen cycle is another important biocycle.
(5) The nitrogen cycle is important for plant growth.
(6) The nitrogen cycle is essential for plant growth.
(7) Azotizing is a crucial step in the nitrogen cycle.
(8) Archaea play a crucial role in the nitrogen cycle.
(9) Micros are crucial for the nitrogen cycle in soil.
(10) Biogens play a crucial role in the nitrogen cycle.
Nitrogen Cycle sentence
(11) Nitrification is a key step in the nitrogen cycle.
(12) Escherichia is a key player in the nitrogen cycle.
(13) Actinomycete is a key player in the nitrogen cycle.
(14) Streptomyces is a key player in the nitrogen cycle.
(15) Nitrify is an important step in the nitrogen cycle.
(16) Bacteroids contribute to the global nitrogen cycle.
(17) Nitrify is an essential step in the nitrogen cycle.
(18) Corynebacteria are important in the nitrogen cycle.
(19) The deciduous tree is a part of the nitrogen cycle.
(20) Urea is an important compound in the nitrogen cycle.
Nitrogen Cycle make sentence
(21) Ammonify is an important step in the nitrogen cycle.
(22) Cyanogeneses is a key process in the nitrogen cycle.
(23) Ureotelism is a key component of the nitrogen cycle.
(24) Dinitrogen is a key component in the nitrogen cycle.
(25) Bacterioids play a vital role in the nitrogen cycle.
(26) Ammonifications are important in the nitrogen cycle.
(27) Uricase is an important enzyme in the nitrogen cycle.
(28) Azotizing is an important step in the nitrogen cycle.
(29) Bacterising is a key component in the nitrogen cycle.
(30) Chemoautotrophs are important for the nitrogen cycle.
Sentence of nitrogen cycle
(31) Dinitrogen is a vital component of the nitrogen cycle.
(32) Nitrobacter plays a crucial role in the nitrogen cycle.
(33) Azotobacters play a crucial role in the nitrogen cycle.
(34) Azotobacter plays a crucial role in the nitrogen cycle.
(35) Ammonification is a crucial step in the nitrogen cycle.
(36) Bacterisation is a key component in the nitrogen cycle.
(37) Chemoautotrophy is a key process in the nitrogen cycle.
(38) Denitrifiers play a crucial role in the nitrogen cycle.
(39) Anaerobic bacteria are important in the nitrogen cycle.
(40) Azotizing is an essential process in the nitrogen cycle.
Nitrogen Cycle meaningful sentence
(41) Nitrobacteria play a crucial role in the nitrogen cycle.
(42) Eubacteria play an important role in the nitrogen cycle.
(43) Holophytic bacteria are important in the nitrogen cycle.
(44) Nitrogenase is a key player in the global nitrogen cycle.
(45) The nitrogen cycle is important for the growth of plants.
(46) Many types of bacteria play a role in the nitrogen cycle.
(47) Ammonification plays a crucial role in the nitrogen cycle.
(48) Azotobacters play an important role in the nitrogen cycle.
(49) The archaebacterium is a key player in the nitrogen cycle.
(50) Dicots are important for their role in the nitrogen cycle.
Nitrogen Cycle sentence examples
(51) Nitrogen fixing is an essential step in the nitrogen cycle.
(52) Denitrification is an important step in the nitrogen cycle.
(53) Nitrobacteria are essential for the nitrogen cycle in soil.
(54) Denitrification plays a crucial role in the nitrogen cycle.
(55) Without microorganisms, the nitrogen cycle would not occur.
(56) Moneran bacteria play a crucial role in the nitrogen cycle.
(57) The nitrogen cycle is important for the health of the soil.
(58) Oxygenic bacteria play a crucial role in the nitrogen cycle.
(59) Bacteriolysis is an essential process in the nitrogen cycle.
(60) Decomposing nitrogen is a key process in the nitrogen cycle.
Sentence with nitrogen cycle
(61) Moneran organisms play a crucial role in the nitrogen cycle.
(62) The nitrogen cycle is an important process in any ecosystem.
(63) Bacterial action is essential for the nitrogen cycle in soil.
(64) Nitrogen fixation plays a crucial role in the nitrogen cycle.
(65) The nitrogen cycle is another important biogeochemical cycle.
(66) Nitrogen fixation is an important step in the nitrogen cycle.
(67) Heterocysts play a crucial role in the global nitrogen cycle.
(68) Denitrify bacteria play a crucial role in the nitrogen cycle.
(69) Actinomycetous bacteria are important for the nitrogen cycle!
(70) The nitrogen cycle is important for maintaining healthy soil.
Use nitrogen cycle in a sentence
(71) Dinitrogen is a key component of the nitrogen cycle in nature.
(72) Dinitrogen is a vital component of the Earth's nitrogen cycle.
(73) Nitrogen transport plays a crucial role in the nitrogen cycle.
(74) Nitrifying bacteria play a crucial role in the nitrogen cycle.
(75) The presence of nitrifiers indicates a healthy nitrogen cycle.
(76) Dinitrogen is a major component of the Earth's nitrogen cycle.
(77) Denitrify nitrogen is an important step in the nitrogen cycle.
(78) The denitrify process is a crucial step in the nitrogen cycle.
(79) Nitrogen-fixing bacteria are key players in the nitrogen cycle.
(80) Nitrogen accumulation is a key component of the nitrogen cycle.
Sentence using nitrogen cycle
(81) Nitrogen is an important element in the Earth's nitrogen cycle.
(82) Procaryotic bacteria play a crucial role in the nitrogen cycle.
(83) The oxidization of ammonia is a key step in the nitrogen cycle.
(84) The denitrify process is a key component of the nitrogen cycle.
(85) The nitrogen cycle is important for maintaining soil fertility.
(86) The fluorescens bacteria is a key player in the nitrogen cycle.
(87) Fluorescens has been found to play a role in the nitrogen cycle.
(88) Denitrifying bacteria play a crucial role in the nitrogen cycle.
(89) The nitrogen cycle is affected by human activities like farming.
(90) Anaerobic bacteria play an important role in the nitrogen cycle.
Nitrogen Cycle example sentence
(91) The decomposition of ammonia is a key step in the nitrogen cycle.
(92) Nitrogen accumulation is an essential part of the nitrogen cycle.
(93) The hydrolysis of ammonia is a key process in the nitrogen cycle.
(94) Dissimilatory bacteria play a crucial role in the nitrogen cycle.
(95) Denitrify nitrogen is an essential process in the nitrogen cycle.
(96) Microbes are essential for the nitrogen cycle in the environment.
(97) Nitrogen transformation is a key component of the nitrogen cycle.
(98) The nitrifier bacteria play a crucial role in the nitrogen cycle.
(99) The nitrogen cycle is important for the production of food crops.
(100) Chemosynthetic bacteria play a crucial role in the nitrogen cycle.
Sentence with word nitrogen cycle
(101) Hydrolyzing ammonia is a fundamental process in the nitrogen cycle.
(102) The transformation of nitrogen is a key step in the nitrogen cycle.
(103) The conversion of nitrogen is a crucial step in the nitrogen cycle.
(104) The ammonifying process is an important step in the nitrogen cycle.
(105) The ammonifies process is part of the nitrogen cycle in ecosystems.
(106) The biogeochemist conducted research on the nitrogen cycle in soil.
(107) The organification of nitrogen is a key step in the nitrogen cycle.
(108) Decomposing nitrogen is an essential process for the nitrogen cycle.
(109) The redox cycle is an important part of the nitrogen cycle in nature.
(110) Denitrifiers are considered key players in the global nitrogen cycle.
Sentence of nitrogen cycle
(111) The nitrogen cycle involves the release of nitrogen in various forms.
(112) The nitrogen cycle involves bacteria and other organisms in the soil.
(113) The nitrogen cycle is important for the health of aquatic ecosystems.
(114) The process of absorbing nitrogen is a key step in the nitrogen cycle.
(115) The conversion of nitrogen is an essential part of the nitrogen cycle.
(116) The organification process is an important part of the nitrogen cycle.
(117) The deaminize reaction is a fundamental process in the nitrogen cycle.
(118) The ammonification process is an essential step in the nitrogen cycle.
(119) The oxidization of nitrogen is an essential part of the nitrogen cycle.
(120) Actinomycetes are important contributors to the nitrogen cycle in soil.
Nitrogen Cycle used in a sentence
(121) Nitrifiers are key players in the nitrogen cycle of agricultural soils.
(122) Aerobes are important contributors to the nitrogen cycle in ecosystems.
(123) The transformation of nitrogen is a crucial step in the nitrogen cycle.
(124) Microbes are essential for the nitrogen cycle, which helps plants grow.
(125) The bacteria in the air are alive and essential for the nitrogen cycle.
(126) The nitrogen cycle is influenced by weather patterns and climate change.
(127) The decomposition of ammonia is an essential step in the nitrogen cycle.
(128) Nitrogen assimilation plays a crucial role in the global nitrogen cycle.
(129) Bacterial action is essential for the nitrogen cycle in the environment.
(130) The oxidation of ammonia is a fundamental reaction in the nitrogen cycle.
Nitrogen Cycle sentence in English
(131) The deposition of nitrogen is an important process in the nitrogen cycle.
(132) Actinomycetous bacteria are important contributors to the nitrogen cycle.
(133) The presence of Nitrobacter in the ecosystem helps in the nitrogen cycle.
(134) The nitrogen cycle is important for the growth of crops and other plants.
(135) Bacterially mediated processes play a crucial role in the nitrogen cycle.
(136) The process of forming nitrogen is a key component of the nitrogen cycle.
(137) The nitrogen cycle is essential for the functioning of aquatic ecosystems.
(138) Anabaenas play a crucial role in the nitrogen cycle of aquatic ecosystems.
(139) The nitrogen cycle is influenced by both natural and human-induced factors.
(140) Anaerobically respiring bacteria play a crucial role in the nitrogen cycle.
(141) Dissimilatory nitrate reduction is an important step in the nitrogen cycle.
(142) The process of nitrification is essential for the nitrogen cycle in nature.
(143) The nitrogen cycle is a dynamic process that varies in different ecosystems.
(144) Heterocysts play a crucial role in the nitrogen cycle of aquatic ecosystems.
(145) The nitrogen cycle is important for the growth of crops and food production.
(146) The photoreduction of nitrate is an important process in the nitrogen cycle.
(147) The nitrification process plays a crucial role in the global nitrogen cycle.
(148) The formation of nitrogen is a vital component of the global nitrogen cycle.
(149) The oxidization of nitrogen oxide is an important step in the nitrogen cycle.
(150) Acidophilic bacteria are important for the nitrogen cycle in soil ecosystems.
(151) Maintaining a balanced nitrogen cycle is crucial for sustainable agriculture.
(152) The presence of Nitrobacterium in soil can indicate a healthy nitrogen cycle.
(153) The nitrogen cycle plays a vital role in the growth and development of plants.
(154) The nitrogen cycle helps to regulate the levels of nitrogen in the atmosphere.
(155) The activity of ammonifying bacteria helps maintain a balanced nitrogen cycle.
(156) The absorption of nitrogen by plants is a key component of the nitrogen cycle.
(157) The mineralization of nitrogen in the soil is a key step in the nitrogen cycle.
(158) Denitrifiers are microorganisms that play a crucial role in the nitrogen cycle.
(159) Researchers are studying the role of the archaebacterium in the nitrogen cycle.
(160) Dinitrogen is crucial for the nitrogen cycle, which supports all life on Earth!
(161) The nitrogen cycle involves ammonification, nitrification, and denitrification.
(162) Actinomycete bacteria are important contributors to the nitrogen cycle in soil.
(163) The nitrogen cycle is a complex process that involves many different organisms.
(164) Understanding the nitrogen cycle is essential for effective nitrogen retention.
(165) The ecology course explored the role of emitted nitrogen in the nitrogen cycle.
(166) The nitrogen cycle is a critical component of the Earth's biogeochemical cycles.
(167) The nitrogen cycle is a natural process that produces nitrogen in various forms.
(168) The role of micro-organisms in the nitrogen cycle is essential for plant growth.
(169) The nitrogen cycle involves various processes, including assimilation by plants.
(170) The presence of Nitrobacter in soil is an indicator of a healthy nitrogen cycle.
(171) The process of the nitrogen cycle is how nitrogen moves through the environment.
(172) The nitrogen cycle is a fundamental concept in ecology and environmental science.
(173) Actinomycetous bacteria are important contributors to the nitrogen cycle in soil.
(174) The nitrogenization of organic matter is an important step in the nitrogen cycle.
(175) Nitrosomonas bacteria break down ammonia into nitrites during the nitrogen cycle.
(176) The role of bacteroid in the nitrogen cycle is crucial for ecosystem functioning.
(177) The activity of nitrifiers is essential for the nitrogen cycle in soil and water.
(178) The ammonifying process is essential for the nitrogen cycle to function properly.
(179) Urease plays a crucial role in the nitrogen cycle by converting urea into ammonia.
(180) The conversion of nitrogen is a fundamental process in the Earth's nitrogen cycle.
(181) Obligate anaerobes are an essential part of the nitrogen cycle in soil ecosystems.
(182) The nitrifying bacteria in the aquarium help to maintain a healthy nitrogen cycle.
(183) The process of ammonification is part of the nitrogen cycle in aquatic ecosystems.
(184) Archaebacteria play an important role in the nitrogen cycle of certain ecosystems.
(185) The dissimilatory reduction of nitrite is an important step in the nitrogen cycle.
(186) The nitrogen cycle can be disrupted by excessive use of fertilizers in agriculture.
(187) The discovery of nitrifiers revolutionized our understanding of the nitrogen cycle.
(188) The dead microorganisms in the soil ammonified, contributing to the nitrogen cycle.
(189) The activity of Nitrobacter is essential for maintaining a balanced nitrogen cycle.
(190) The nitrogen cycle involves the breakdown of nitrogen compounds in the environment.
(191) Understanding the nitrogen cycle is essential for sustainable agriculture practices.
(192) The nitrogen cycle involves the transformation of nitrogen from one form to another.
(193) The nitrogen cycle is a topic of study in biology and environmental science courses.
(194) The role of bacteroids in the nitrogen cycle is essential for ecosystem functioning.
(195) Ammonifying bacteria play a crucial role in the nitrogen cycle by releasing ammonia.
(196) Archaebacterial nitrogen fixation processes contribute to the global nitrogen cycle.
(197) The bacteriologist conducted research on the role of bacteria in the nitrogen cycle.
(198) Eubacteria, which are found in soil and water, are essential for the nitrogen cycle.
(199) Nitrogen transformation is a key component of the nitrogen cycle in the environment.
(200) Azotising is a chemical process that plays a vital role in the global nitrogen cycle.
(201) The nitrogen cycle is a complete cycle of nitrogen transformation in the environment.
(202) Nitrobacterium is a type of bacteria that plays a crucial role in the nitrogen cycle.
(203) The spirilla genus includes several species that are important in the nitrogen cycle.
(204) The nitrogen cycle is essential for the growth of crops and the health of ecosystems.
(205) The nitrogen cycle is a complex series of chemical reactions and biological processes.
(206) The nitrogen cycle is a natural process that has been occurring for millions of years.
(207) Researchers utilize nitrogen to study the nitrogen cycle and its impact on ecosystems.
(208) The acetogenic pathway is a critical part of the nitrogen cycle in certain ecosystems.
(209) Some cyanobacteria are capable of nitrogen fixing, contributing to the nitrogen cycle.
(210) Nitrogen fixing is a biological process that plays a vital role in the nitrogen cycle.
(211) Nitrobacter is involved in the conversion of ammonia to nitrate in the nitrogen cycle.
(212) The nitrogen cycle is a natural process that delivers nitrogen to different ecosystems.
(213) The aquarist is knowledgeable about the nitrogen cycle and its importance in aquariums.
(214) The process of breaking down ammonia is essential for the nitrogen cycle in ecosystems.
(215) The nitrogen cycle is essential for the health and productivity of agricultural systems.
(216) Denitrifiers are essential for maintaining a balanced nitrogen cycle in the environment.
(217) The ammonifying bacteria in the ocean play a critical role in the global nitrogen cycle.
(218) The nitrogen cycle is important for maintaining a healthy balance in aquatic ecosystems.
(219) The nitrogen cycle involves the conversion of nitrogen gas into usable forms for plants.
(220) The degradation of diphosphate by bacteria is an important process in the nitrogen cycle.
(221) The nitrogen cycle involves the conversion of nitrogen gas into usable forms by bacteria.
(222) The nitrogen cycle is a fundamental process that supports the growth of plants and algae.
(223) Pseudomonad bacteria are important contributors to the nitrogen cycle in soil ecosystems.
(224) The triple bond in nitrogen gas is responsible for its role in the Earth's nitrogen cycle.
(225) The decomposition of nitrogen-containing compounds is a key process in the nitrogen cycle.
(226) The nitrogen cycle is important for the health of coral reefs and other marine ecosystems.
(227) The nitrogen cycle is essential for the production of proteins and DNA in living organisms.
(228) The denitrifier is a type of microorganism that plays a crucial role in the nitrogen cycle.
(229) Halophilic bacteria are known to play a role in the nitrogen cycle in saltwater ecosystems.
(230) The ammonification process is an important part of the nitrogen cycle in marine ecosystems.
(231) Oxygenase is a key enzyme in the nitrogen cycle, converting ammonia to nitrite and nitrate.
(232) The study of Nitrobacterium has contributed to a better understanding of the nitrogen cycle.
(233) The ammonification process is an important part of the nitrogen cycle in aquatic ecosystems.
(234) The nitrogen cycle is affected by human activities such as fertilizer use and deforestation.
(235) Denitrifiers are essential for maintaining a balanced nitrogen cycle in agricultural systems.
(236) Corynebacteria are important contributors to the nitrogen cycle in soil and water ecosystems.
(237) Nitrobacterium plays a crucial role in the nitrogen cycle by converting nitrite into nitrate.
(238) Nitrify is an important step in the nitrogen cycle, as it makes nitrogen available to plants.
(239) The nitrogen cycle is a crucial process in maintaining the balance of nutrients in ecosystems.
(240) The nitrogen cycle involves various processes that form nitrogen compounds in the environment.
(241) The form of nitrogen that is most commonly used by bacteria in the nitrogen cycle is ammonium.
(242) The nitrometer is an essential tool for researchers studying the nitrogen cycle in ecosystems.
(243) The carbon cycle is interconnected with other biogeochemical cycles such as the nitrogen cycle.
(244) The nitrogen cycle is essential for the nitrogen-fixing symbiosis between legumes and bacteria.
(245) The activity of Nitrobacter is crucial for maintaining a balanced nitrogen cycle in ecosystems.
(246) The nitrogen cycle is a complex network of interactions between organisms and their environment.
(247) The nitrogen cycle is a complete cycle of nitrogen fixation, nitrification, and denitrification.
(248) Denitrifiers play a crucial role in the nitrogen cycle by converting nitrates into nitrogen gas.
(249) The nitrogen cycle is another important biogeochemical cycle that is essential for plant growth.
(250) The activity of nitrobacter is essential for maintaining a balanced nitrogen cycle in ecosystems.
(251) Spirilla are important in the nitrogen cycle as they can convert nitrogen gas into a usable form.
(252) Eubacteria are found in various environments, and they play a crucial role in the nitrogen cycle.
(253) The nitrogen cycle is affected by human activities such as deforestation and industrial pollution.
(254) Actinomycetous bacteria are important in the nitrogen cycle, as they can fix atmospheric nitrogen.
(255) Bacteriologists study the role of bacteria in the nitrogen cycle and its importance in agriculture.
(256) The assimilatory abilities of certain bacteria contribute to the nitrogen cycle in soil ecosystems.
(257) Ammonification is a process that occurs in the ocean and plays a role in the global nitrogen cycle.
(258) Some bacteria are capable of decomposing ammonia, which plays a crucial role in the nitrogen cycle.
(259) The ability of Nitrobacter to convert nitrite to nitrate is an important step in the nitrogen cycle.
(260) The activity of nitrifiers is crucial for maintaining a healthy nitrogen cycle in aquatic ecosystems.
(261) Nitrogen-fixing plants break down atmospheric nitrogen and play a crucial role in the nitrogen cycle.
(262) The nitrogen cycle is a natural process that helps to maintain the balance of nutrients in ecosystems.
(263) Archaebacteria play a crucial role in the nitrogen cycle by converting nitrogen gas into a usable form.
(264) The nitrogen cycle, in contrast to the oxygen cycle, is essential for the growth of plants and animals.
(265) Deaminization is an important process in the nitrogen cycle, converting ammonia to nitrite and nitrate.
(266) Micro-organisms are essential for the nitrogen cycle, converting atmospheric nitrogen into usable forms.
(267) Algological research is crucial for the understanding of the role of algae in the marine nitrogen cycle.
(268) The nitrogen cycle is a continuous process that involves the cycling of nitrogen through different forms.
(269) The study of nitrocalcite can provide insights into the nitrogen cycle and its impact on the environment.
(270) The activity of nitrobacteria is crucial for maintaining a balanced nitrogen cycle in aquatic ecosystems.
(271) The nitrogen cycle involves the transport of nitrogen between the atmosphere, soil, and living organisms.
(272) Denitrifying bacteria play a crucial role in the nitrogen cycle by converting nitrates into nitrogen gas.
(273) The nitrogen cycle is a continuous process that ensures the availability of nitrogen for living organisms.
(274) The activity of Nitrobacterium is crucial for maintaining a balanced nitrogen cycle in natural ecosystems.
(275) Rhizobium is a key player in the nitrogen cycle and plays an important role in maintaining soil fertility.
(276) Nitrifiers play a crucial role in the nitrogen cycle by converting toxic ammonia into less harmful nitrite.
(277) Bacteroids play a crucial role in the nitrogen cycle by converting atmospheric nitrogen into a usable form.
(278) Nitrate nitrogen is a key component in the nitrogen cycle, which is essential for the health of ecosystems.
(279) The abundance of nitrifiers in a system can indicate the overall health and stability of the nitrogen cycle.
(280) The study of Nitrobacter and its role in the nitrogen cycle is of great importance in environmental science.
(281) Bacteroids convert atmospheric nitrogen into a usable form, and this process is vital for the nitrogen cycle.
(282) The nitrogen cycle involves the complete cycle of nitrogen through various biological and physical processes.
(283) Schizomycetes play a crucial role in the nitrogen cycle by converting atmospheric nitrogen into a usable form.
(284) Aminopeptidase is an important enzyme in the nitrogen cycle, as it helps convert organic nitrogen into ammonia.
(285) Nit is involved in many biological processes, including the nitrogen cycle, which is essential for plant growth.
(286) Dinitrogen is a key element in the nitrogen cycle, which is crucial for the growth of plants and other organisms.
(287) Micro-organisms are involved in the nitrogen cycle, converting atmospheric nitrogen into a usable form for plants.
(288) Nitrifying bacteria play a crucial role in the nitrogen cycle by converting ammonia to nitrite and then to nitrate.
(289) Dinitrogen is a key component in the Earth's nitrogen cycle, which maintains the balance of nutrients in ecosystems!
(290) The study of marine biology can help us better understand the role of marine organisms in the global nitrogen cycle.
(291) The nitrogen cycle is a natural process that helps break down nitrogen compounds and recycle them in the environment.
(292) Urase is an important enzyme in the nitrogen cycle, helping to convert urea into ammonia and ultimately into nitrate.
(293) Azote is a key component of the Earth's nitrogen cycle, which helps to regulate the balance of nutrients in ecosystems.
(294) The role of nitrifiers in the global nitrogen cycle is crucial for maintaining the balance of nutrients in the biosphere.
(295) The hydrolysis of ammonia is a key process in the nitrogen cycle, which plays a critical role in the health of ecosystems.
(296) Schizomycete is a key player in the nitrogen cycle, helping to convert atmospheric nitrogen into a usable form for plants.
(297) Escherichia is a key player in the nitrogen cycle, as it can convert atmospheric nitrogen into a form that plants can use.
(298) The nitrogen cycle is a fascinating topic that highlights the interconnectedness of living organisms and their environment.
(299) Beijerinck's research on the nitrogen cycle was instrumental in understanding the role of microorganisms in soil fertility.
(300) The carbon cycle, in contrast to the nitrogen cycle, is heavily influenced by human activities such as burning fossil fuels.
(301) The nitrogen cycle is a cyclic process that involves the conversion of nitrogen gas into usable forms for plants and animals.
(302) Decomposing nitrogen is a crucial process in the nitrogen cycle, which helps to maintain the balance of nutrients in ecosystems.
(303) Dinitrogen is a vital component of the Earth's nitrogen cycle, which involves the conversion of nitrogen between different forms.
(304) Schizomycetes are important for the nitrogen cycle, as they are able to convert atmospheric nitrogen into a form that plants can use.
(305) Bacteroids play a crucial role in the nitrogen cycle, as they convert atmospheric nitrogen into a form that can be utilized by plants.
(306) Eubacteria, which are found in soil and water, play a crucial role in the nitrogen cycle, and they also help break down organic matter.
(307) Bacteroids, which are formed through a symbiotic relationship between the plant and bacteria, play a crucial role in the nitrogen cycle.
(308) Heterocysts play a crucial role in the nitrogen cycle by converting atmospheric nitrogen into a form that can be used by other organisms.
(309) Nitrogenase plays a crucial role in the nitrogen cycle by converting inert nitrogen gas into a form that can be utilized by living organisms.
(310) Bacteroids play a crucial role in the nitrogen cycle by converting atmospheric nitrogen into a form that can be utilized by living organisms.
(311) Nitrogen decomposition is an essential part of the nitrogen cycle, which helps to regulate the amount of nitrogen in the atmosphere and in the soil.
(312) The nitrogen cycle is another important biogeochemical cycle, and it involves the conversion of nitrogen gas into usable forms for plants and animals.
(313) Bacteroids play a crucial role in the nitrogen cycle by converting atmospheric nitrogen into a form that can be utilized by plants and other organisms.
(314) The phosphorus cycle is a slower biogeochemical cycle than the nitrogen cycle, but it is still crucial for the growth and development of plants and animals.
(315) The nitrogen cycle is the process by which nitrogen is converted into various forms and revolve in a cycle between the atmosphere, soil, and living organisms.
(316) Bacteroids play a crucial role in the nitrogen cycle by converting atmospheric nitrogen into a form that can be utilized by living organisms, including plants.
Nitrogen Cycle meaning
Nitrogen Cycle: Tips for Using the Term in a Sentence The nitrogen cycle is a fundamental process that occurs in nature, playing a crucial role in the cycling and availability of nitrogen in various ecosystems. Understanding this concept is essential for anyone studying biology, ecology, or environmental science. To help you effectively incorporate the term "nitrogen cycle" into your writing, here are some tips on how to use it in a sentence:
1. Define the nitrogen cycle: - The nitrogen cycle refers to the natural process by which nitrogen is converted and recycled in the environment. - The nitrogen cycle is a complex series of biological, chemical, and physical transformations that occur in ecosystems.
2. Explain the importance of the nitrogen cycle: - The nitrogen cycle is vital for maintaining the balance of nitrogen in the atmosphere, soil, and living organisms. - Understanding the nitrogen cycle is crucial for comprehending the nutrient dynamics in ecosystems and the sustainability of life on Earth.
3. Describe the stages of the nitrogen cycle: - The nitrogen cycle consists of several key stages, including nitrogen fixation, nitrification, assimilation, ammonification, and denitrification. - In the nitrogen cycle, atmospheric nitrogen is converted into forms that can be utilized by plants and other organisms.
4. Provide examples of the nitrogen cycle in action: - The nitrogen cycle can be observed in agricultural practices, where farmers use nitrogen-based fertilizers to enhance crop growth. - The nitrogen cycle is evident in aquatic ecosystems, where nitrogen compounds are transformed by bacteria and algae, affecting water quality and aquatic life.
5. Discuss the environmental impacts of the nitrogen cycle: - Human activities, such as excessive fertilizer use and industrial processes, can disrupt the natural balance of the nitrogen cycle, leading to environmental issues like eutrophication and air pollution. - Understanding the nitrogen cycle is crucial for mitigating the negative impacts of human-induced nitrogen pollution on ecosystems.
6. Connect the nitrogen cycle to broader ecological concepts: - The nitrogen cycle is closely linked to other biogeochemical cycles, such as the carbon cycle and the phosphorus cycle, as they interact and influence one another. - The nitrogen cycle is an integral part of the overall functioning of ecosystems, contributing to the maintenance of biodiversity and ecological stability.
7. Use the term in a scientific context: - Scientists have conducted extensive research on the nitrogen cycle to better understand its intricacies and develop strategies for sustainable nitrogen management. - The nitrogen cycle is a topic of ongoing scientific investigation, with new discoveries continually expanding our knowledge of this complex process.
8. Employ the term in an educational or explanatory context: - Teachers often introduce the nitrogen cycle to students as a fundamental concept in biology, helping them grasp the interconnectedness of living organisms and their environment. - Understanding the nitrogen cycle is essential for environmental educators to effectively communicate the importance of nitrogen conservation and sustainable practices. Remember, when using the term "nitrogen cycle" in a sentence, it is crucial to provide context, explain its significance, and consider the audience's level of familiarity with the topic. By following these tips, you can confidently incorporate the term into your writing and enhance your understanding of this essential ecological process.
The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Nitrogen Cycle. They do not represent the opinions of TranslateEN.com.