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Effect of zeolite–sponge iron combined substrate on microbial community in ecological floating bed
Substrate has been proven to be a useful way to enhance the purification effect of ecological floating bed (EFB), and it also affected the microbial community. While at cold temperature, there was a lack of research on the effect of substrates on plant growth and microbial communities. In this study...
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| Published in: | Environmental Research Communications 2023-08, Vol.5 (8), p.85011 |
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| creator | Meng, Ting Cheng, Wen Ren, Jiehui Wang, Min |
| description | Substrate has been proven to be a useful way to enhance the purification effect of ecological floating bed (EFB), and it also affected the microbial community. While at cold temperature, there was a lack of research on the effect of substrates on plant growth and microbial communities. In this study, three EFBs, namely plant EFB (EFB-P), substrate EFB (EFB-S) and plant–substrate EFB (EFB-PS), were constructed. The effects of zeolite–sponge iron combined substrate on pollutant removal, plant growth and microbial community in the EFBs were investigated at low temperature (3.1 ∼ 11.7 °C). Results showed that the removal efficiencies of total nitrogen, total phosphorus and nitrate nitrogen by EFB-PS (60.35%, 95.09% and 64.43%) was significantly better than that of EFB-P (47.71%, 88.59% and 51.65%), but the relative growth of the aboveground biomass of plants (50.41%) was less than that of EFB-P (81.16%). In addition, the microbial biomass in EFB-PS (69.14 mg/(g DW·day)) and EFB-S (68.76 mg/(g DW·day)) was much larger than that in EFB-P (50.69 mg/(g DW·day)). High-throughput sequencing showed that the microbial diversity (Shannon (6.06 ∼ 8.33) and Simpson (0.88 ∼ 0.97)) and richness (Chao1 (1621.7 ∼ 2556.2) and Observed _ species (1437 ∼ 2423.3)) of EFB with adding zeolite–sponge iron combined substrate were also higher than those of EFB-P. In addition, the addition of combined substrates changed the microbial community structure, some genera with denitrification and nitrogen fixation functions, including
Rhodobacter
(36.03 ∼ 48.59%)
, Hydrogenopha
(2.21 ∼ 5.89%), were abundantly enriched in the EFB with adding zeolite-sponge iron combined substrate. These results improved the effects of substrate low temperature operation on plant growth and microbial characteristics in EFB, and provide a theoretical basis for strengthening the operation of the low temperature conditions of the EFB. |
| doi_str_mv | 10.1088/2515-7620/acf02c |
| format | article |
| fullrecord | <record><control><sourceid>proquest_iop_j</sourceid><recordid>TN_cdi_iop_journals_10_1088_2515_7620_acf02c</recordid><sourceformat>XML</sourceformat><sourcesystem>PC</sourcesystem><doaj_id>oai_doaj_org_article_8fbc6c25089741f980601ef6a0020eff</doaj_id><sourcerecordid>2857137055</sourcerecordid><originalsourceid>FETCH-LOGICAL-c400t-bffa1fa2db6d7593c3725d7e91af92b675303d33c225b6141b37522abd8db1cb3</originalsourceid><addsrcrecordid>eNp1kc1KJDEUhQtxYETdzzIgzGpab5JKJbUcGn8aBDe6Dvlt0lRXapL0ol35DvOGPolVU9LOQlf3cnLul8u5VfUDwyUGIa4Iw2zBGwJXyngg5qg6OUjH__Xfq_OcNwBAeFsDrk8qe-29MwVFj55d7EJxry9_8xD7tUMhxR6ZuNWhdxblnc4lqeLQqG6DSVEH1U3v210fyh6FHjkTu7gOZtR9F1UJ_RppZ8-qb1512Z2_19Pq6eb6cXm3uH-4XS1_3y9MDVAW2nuFvSJWN5azlhrKCbPctVj5luiGMwrUUmoIYbrBNdaUM0KUtsJqbDQ9rVYz10a1kUMKW5X2Mqog_wkxraVKJZjOSeG1aQxhIFpeY98KaAA736gxG3Dej6yLmTWk-GfncpGbuEv9uL4kgnFMOTA2umB2jXHknJw__IpBTqeRU_Zyyl7OpxlHfs4jIQ4fTJeMZFJIEAwwloOdNvj1ifFL7hvkAJ4b</addsrcrecordid><sourcetype>Open Website</sourcetype><iscdi>true</iscdi><recordtype>article</recordtype><pqid>2857137055</pqid></control><display><type>article</type><title>Effect of zeolite–sponge iron combined substrate on microbial community in ecological floating bed</title><source>Publicly Available Content Database</source><creator>Meng, Ting ; Cheng, Wen ; Ren, Jiehui ; Wang, Min</creator><creatorcontrib>Meng, Ting ; Cheng, Wen ; Ren, Jiehui ; Wang, Min</creatorcontrib><description>Substrate has been proven to be a useful way to enhance the purification effect of ecological floating bed (EFB), and it also affected the microbial community. While at cold temperature, there was a lack of research on the effect of substrates on plant growth and microbial communities. In this study, three EFBs, namely plant EFB (EFB-P), substrate EFB (EFB-S) and plant–substrate EFB (EFB-PS), were constructed. The effects of zeolite–sponge iron combined substrate on pollutant removal, plant growth and microbial community in the EFBs were investigated at low temperature (3.1 ∼ 11.7 °C). Results showed that the removal efficiencies of total nitrogen, total phosphorus and nitrate nitrogen by EFB-PS (60.35%, 95.09% and 64.43%) was significantly better than that of EFB-P (47.71%, 88.59% and 51.65%), but the relative growth of the aboveground biomass of plants (50.41%) was less than that of EFB-P (81.16%). In addition, the microbial biomass in EFB-PS (69.14 mg/(g DW·day)) and EFB-S (68.76 mg/(g DW·day)) was much larger than that in EFB-P (50.69 mg/(g DW·day)). High-throughput sequencing showed that the microbial diversity (Shannon (6.06 ∼ 8.33) and Simpson (0.88 ∼ 0.97)) and richness (Chao1 (1621.7 ∼ 2556.2) and Observed _ species (1437 ∼ 2423.3)) of EFB with adding zeolite–sponge iron combined substrate were also higher than those of EFB-P. In addition, the addition of combined substrates changed the microbial community structure, some genera with denitrification and nitrogen fixation functions, including
Rhodobacter
(36.03 ∼ 48.59%)
, Hydrogenopha
(2.21 ∼ 5.89%), were abundantly enriched in the EFB with adding zeolite-sponge iron combined substrate. These results improved the effects of substrate low temperature operation on plant growth and microbial characteristics in EFB, and provide a theoretical basis for strengthening the operation of the low temperature conditions of the EFB.</description><identifier>ISSN: 2515-7620</identifier><identifier>EISSN: 2515-7620</identifier><identifier>DOI: 10.1088/2515-7620/acf02c</identifier><language>eng</language><publisher>Bristol: IOP Publishing</publisher><subject>Biomass ; Community structure ; Ecological effects ; ecological floating bed ; Iron ; Low temperature ; Microbial activity ; microbial community ; Microbiomes ; Microorganisms ; Next-generation sequencing ; Nitrogen ; Nitrogen fixation ; Nitrogenation ; Plant growth ; Pollutant removal ; Sponge iron ; Substrates ; Uranium ; zeolite ; Zeolites</subject><ispartof>Environmental Research Communications, 2023-08, Vol.5 (8), p.85011</ispartof><rights>2023 The Author(s). Published by IOP Publishing Ltd</rights><rights>2023 The Author(s). Published by IOP Publishing Ltd. This work is published under http://creativecommons.org/licenses/by/4.0/ (the “License”). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License.</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed><cites>FETCH-LOGICAL-c400t-bffa1fa2db6d7593c3725d7e91af92b675303d33c225b6141b37522abd8db1cb3</cites><orcidid>0000-0002-1151-1469</orcidid></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktohtml>$$Uhttps://www.proquest.com/docview/2857137055?pq-origsite=primo$$EHTML$$P50$$Gproquest$$Hfree_for_read</linktohtml><link.rule.ids>314,780,784,25753,27924,27925,37012,44590</link.rule.ids></links><search><creatorcontrib>Meng, Ting</creatorcontrib><creatorcontrib>Cheng, Wen</creatorcontrib><creatorcontrib>Ren, Jiehui</creatorcontrib><creatorcontrib>Wang, Min</creatorcontrib><title>Effect of zeolite–sponge iron combined substrate on microbial community in ecological floating bed</title><title>Environmental Research Communications</title><addtitle>ERC</addtitle><addtitle>Environ. Res. Commun</addtitle><description>Substrate has been proven to be a useful way to enhance the purification effect of ecological floating bed (EFB), and it also affected the microbial community. While at cold temperature, there was a lack of research on the effect of substrates on plant growth and microbial communities. In this study, three EFBs, namely plant EFB (EFB-P), substrate EFB (EFB-S) and plant–substrate EFB (EFB-PS), were constructed. The effects of zeolite–sponge iron combined substrate on pollutant removal, plant growth and microbial community in the EFBs were investigated at low temperature (3.1 ∼ 11.7 °C). Results showed that the removal efficiencies of total nitrogen, total phosphorus and nitrate nitrogen by EFB-PS (60.35%, 95.09% and 64.43%) was significantly better than that of EFB-P (47.71%, 88.59% and 51.65%), but the relative growth of the aboveground biomass of plants (50.41%) was less than that of EFB-P (81.16%). In addition, the microbial biomass in EFB-PS (69.14 mg/(g DW·day)) and EFB-S (68.76 mg/(g DW·day)) was much larger than that in EFB-P (50.69 mg/(g DW·day)). High-throughput sequencing showed that the microbial diversity (Shannon (6.06 ∼ 8.33) and Simpson (0.88 ∼ 0.97)) and richness (Chao1 (1621.7 ∼ 2556.2) and Observed _ species (1437 ∼ 2423.3)) of EFB with adding zeolite–sponge iron combined substrate were also higher than those of EFB-P. In addition, the addition of combined substrates changed the microbial community structure, some genera with denitrification and nitrogen fixation functions, including
Rhodobacter
(36.03 ∼ 48.59%)
, Hydrogenopha
(2.21 ∼ 5.89%), were abundantly enriched in the EFB with adding zeolite-sponge iron combined substrate. These results improved the effects of substrate low temperature operation on plant growth and microbial characteristics in EFB, and provide a theoretical basis for strengthening the operation of the low temperature conditions of the EFB.</description><subject>Biomass</subject><subject>Community structure</subject><subject>Ecological effects</subject><subject>ecological floating bed</subject><subject>Iron</subject><subject>Low temperature</subject><subject>Microbial activity</subject><subject>microbial community</subject><subject>Microbiomes</subject><subject>Microorganisms</subject><subject>Next-generation sequencing</subject><subject>Nitrogen</subject><subject>Nitrogen fixation</subject><subject>Nitrogenation</subject><subject>Plant growth</subject><subject>Pollutant removal</subject><subject>Sponge iron</subject><subject>Substrates</subject><subject>Uranium</subject><subject>zeolite</subject><subject>Zeolites</subject><issn>2515-7620</issn><issn>2515-7620</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2023</creationdate><recordtype>article</recordtype><sourceid>PIMPY</sourceid><sourceid>DOA</sourceid><recordid>eNp1kc1KJDEUhQtxYETdzzIgzGpab5JKJbUcGn8aBDe6Dvlt0lRXapL0ol35DvOGPolVU9LOQlf3cnLul8u5VfUDwyUGIa4Iw2zBGwJXyngg5qg6OUjH__Xfq_OcNwBAeFsDrk8qe-29MwVFj55d7EJxry9_8xD7tUMhxR6ZuNWhdxblnc4lqeLQqG6DSVEH1U3v210fyh6FHjkTu7gOZtR9F1UJ_RppZ8-qb1512Z2_19Pq6eb6cXm3uH-4XS1_3y9MDVAW2nuFvSJWN5azlhrKCbPctVj5luiGMwrUUmoIYbrBNdaUM0KUtsJqbDQ9rVYz10a1kUMKW5X2Mqog_wkxraVKJZjOSeG1aQxhIFpeY98KaAA736gxG3Dej6yLmTWk-GfncpGbuEv9uL4kgnFMOTA2umB2jXHknJw__IpBTqeRU_Zyyl7OpxlHfs4jIQ4fTJeMZFJIEAwwloOdNvj1ifFL7hvkAJ4b</recordid><startdate>20230801</startdate><enddate>20230801</enddate><creator>Meng, Ting</creator><creator>Cheng, Wen</creator><creator>Ren, Jiehui</creator><creator>Wang, Min</creator><general>IOP Publishing</general><scope>O3W</scope><scope>TSCCA</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>ABUWG</scope><scope>AFKRA</scope><scope>ATCPS</scope><scope>AZQEC</scope><scope>BENPR</scope><scope>BHPHI</scope><scope>CCPQU</scope><scope>DWQXO</scope><scope>GNUQQ</scope><scope>HCIFZ</scope><scope>PATMY</scope><scope>PIMPY</scope><scope>PQEST</scope><scope>PQQKQ</scope><scope>PQUKI</scope><scope>PRINS</scope><scope>PYCSY</scope><scope>DOA</scope><orcidid>https://orcid.org/0000-0002-1151-1469</orcidid></search><sort><creationdate>20230801</creationdate><title>Effect of zeolite–sponge iron combined substrate on microbial community in ecological floating bed</title><author>Meng, Ting ; Cheng, Wen ; Ren, Jiehui ; Wang, Min</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c400t-bffa1fa2db6d7593c3725d7e91af92b675303d33c225b6141b37522abd8db1cb3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2023</creationdate><topic>Biomass</topic><topic>Community structure</topic><topic>Ecological effects</topic><topic>ecological floating bed</topic><topic>Iron</topic><topic>Low temperature</topic><topic>Microbial activity</topic><topic>microbial community</topic><topic>Microbiomes</topic><topic>Microorganisms</topic><topic>Next-generation sequencing</topic><topic>Nitrogen</topic><topic>Nitrogen fixation</topic><topic>Nitrogenation</topic><topic>Plant growth</topic><topic>Pollutant removal</topic><topic>Sponge iron</topic><topic>Substrates</topic><topic>Uranium</topic><topic>zeolite</topic><topic>Zeolites</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Meng, Ting</creatorcontrib><creatorcontrib>Cheng, Wen</creatorcontrib><creatorcontrib>Ren, Jiehui</creatorcontrib><creatorcontrib>Wang, Min</creatorcontrib><collection>IOP Publishing</collection><collection>IOPscience (Open Access)</collection><collection>CrossRef</collection><collection>ProQuest Central (Alumni)</collection><collection>ProQuest Central UK/Ireland</collection><collection>Agricultural & Environmental Science Collection</collection><collection>ProQuest Central Essentials</collection><collection>ProQuest Central</collection><collection>ProQuest Natural Science Collection</collection><collection>ProQuest One Community College</collection><collection>ProQuest Central</collection><collection>ProQuest Central Student</collection><collection>SciTech Premium Collection</collection><collection>Environmental Science Database</collection><collection>Publicly Available Content Database</collection><collection>ProQuest One Academic Eastern Edition (DO NOT USE)</collection><collection>ProQuest One Academic</collection><collection>ProQuest One Academic UKI Edition</collection><collection>ProQuest Central China</collection><collection>Environmental Science Collection</collection><collection>DOAJ Directory of Open Access Journals</collection><jtitle>Environmental Research Communications</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Meng, Ting</au><au>Cheng, Wen</au><au>Ren, Jiehui</au><au>Wang, Min</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Effect of zeolite–sponge iron combined substrate on microbial community in ecological floating bed</atitle><jtitle>Environmental Research Communications</jtitle><stitle>ERC</stitle><addtitle>Environ. Res. Commun</addtitle><date>2023-08-01</date><risdate>2023</risdate><volume>5</volume><issue>8</issue><spage>85011</spage><pages>85011-</pages><issn>2515-7620</issn><eissn>2515-7620</eissn><abstract>Substrate has been proven to be a useful way to enhance the purification effect of ecological floating bed (EFB), and it also affected the microbial community. While at cold temperature, there was a lack of research on the effect of substrates on plant growth and microbial communities. In this study, three EFBs, namely plant EFB (EFB-P), substrate EFB (EFB-S) and plant–substrate EFB (EFB-PS), were constructed. The effects of zeolite–sponge iron combined substrate on pollutant removal, plant growth and microbial community in the EFBs were investigated at low temperature (3.1 ∼ 11.7 °C). Results showed that the removal efficiencies of total nitrogen, total phosphorus and nitrate nitrogen by EFB-PS (60.35%, 95.09% and 64.43%) was significantly better than that of EFB-P (47.71%, 88.59% and 51.65%), but the relative growth of the aboveground biomass of plants (50.41%) was less than that of EFB-P (81.16%). In addition, the microbial biomass in EFB-PS (69.14 mg/(g DW·day)) and EFB-S (68.76 mg/(g DW·day)) was much larger than that in EFB-P (50.69 mg/(g DW·day)). High-throughput sequencing showed that the microbial diversity (Shannon (6.06 ∼ 8.33) and Simpson (0.88 ∼ 0.97)) and richness (Chao1 (1621.7 ∼ 2556.2) and Observed _ species (1437 ∼ 2423.3)) of EFB with adding zeolite–sponge iron combined substrate were also higher than those of EFB-P. In addition, the addition of combined substrates changed the microbial community structure, some genera with denitrification and nitrogen fixation functions, including
Rhodobacter
(36.03 ∼ 48.59%)
, Hydrogenopha
(2.21 ∼ 5.89%), were abundantly enriched in the EFB with adding zeolite-sponge iron combined substrate. These results improved the effects of substrate low temperature operation on plant growth and microbial characteristics in EFB, and provide a theoretical basis for strengthening the operation of the low temperature conditions of the EFB.</abstract><cop>Bristol</cop><pub>IOP Publishing</pub><doi>10.1088/2515-7620/acf02c</doi><tpages>13</tpages><orcidid>https://orcid.org/0000-0002-1151-1469</orcidid><oa>free_for_read</oa></addata></record> |
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| ispartof | Environmental Research Communications, 2023-08, Vol.5 (8), p.85011 |
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| subjects | Biomass Community structure Ecological effects ecological floating bed Iron Low temperature Microbial activity microbial community Microbiomes Microorganisms Next-generation sequencing Nitrogen Nitrogen fixation Nitrogenation Plant growth Pollutant removal Sponge iron Substrates Uranium zeolite Zeolites |
| title | Effect of zeolite–sponge iron combined substrate on microbial community in ecological floating bed |
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