Heavy metal remediation: transport and accumulation in plants
Gespeichert in:
| Weitere Verfasser: | , |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
New York, New York
Nova Science Publishers, Inc.
2014
|
| Schriftenreihe: | Environmental research advances series
|
| Schlagworte: | |
| Online-Zugang: | FAW01 FAW02 |
| Beschreibung: | Print version record |
| Beschreibung: | 1 online resource (260 pages) illustrations (some color), tables |
| ISBN: | 9781633215931 1633215938 9781633215689 |
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| 245 | 1 | 0 | |a Heavy metal remediation |b transport and accumulation in plants |c Dharmendra Kumar Gupta and Soumya Chatterjee, editors |
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| 505 | 8 | |a Plants have a very specific and efficient mechanism to obtain, translocate and store nutrients from the surrounding environment. The precise mechanism that helps a plant in nutrient translocation from root to shoot also, in the same way, transfers and stores toxic metals within their structure. Metal toxicity generally causes multiple direct or indirect effects on plants, affecting nearly all of their physiological functions. Plant tolerance to heavy metals depends largely on plant efficiency in uptake, translocation and sequestration of heavy metals in specific cell organelles or specialized | |
| 505 | 8 | |a HEAVY METAL REMEDIATION: TRANSPORT AND ACCUMULATION IN PLANTS; HEAVY METAL REMEDIATION: TRANSPORT AND ACCUMULATION IN PLANTS; Library of Congress Cataloging-in-Publication Data; Contents; Preface; References; Chapter 1: Mechanism of Metal Transporters in Plants; Abstract; 1. Introduction; 2. Metal Ion and Their Uptake from Soil; 2.1. Major Metal Transporters in Plants; 2.1.1. NRAMP Family; 2.1.2. CDF Family; 2.1.3. ZIP Family; 2.1.4. ABC Transporter; 2.1.5. P Type ATPase; 2.1.6. PIB-ATPases; 2.1.6.1. Zn/Cd/Co/Pb Subgroup of P1B-Type ATPases; 2.1.6.2. Cu/Ag Subgroup of P1B-Type ATPases | |
| 505 | 8 | |a 2.1.7. CaCA Transporter2.1.8. CNGC Transporter; 2.1.9.Copper Transporter; 3. Metal Ion Uptake and Transport in Root; 3.1. Iron (Fe) Uptake and Transport; 3.2. Zinc (Zn) Uptake and Transport; 3.3. Arsenic (As) Uptake and Transport; 3.4. Cadmium (Cd) Uptake and Transport; 3.5. Chromium (Cr) Uptake and Transport; 3.6. Lead (Pb) Uptake and Transport; 4. Root to Shoot Metal Translocation; 5. Detoxification and Sequestration of Toxic Metals; Conclusion; References; Chapter 2: Metal Transporters for Uptake, Sequestration and Translocation; Horticultural Science laboratory | |
| 505 | 8 | |a National Agronomic Institute of Tunisia,Tunis Mahragene, Tunisia; University of Carthage, Carthage, Tunisia; Abstract; 1. Introduction; 2. Metal Uptake Transporters; 2.1. ZIP Family; 2.2. NRAMP Family; 2.3. YSL Family; 3. Heavy Metals Sequestration; 3.1. Transporters of CDF Family; 3.2. Specificity of Transporters to Metals; 3.2.1. Zn-CDF; 3.2.2. Mn-CDF; 3.2.3. CAX Transporters; 3.2.4. ABC Transporters (ATP Binding Cassette); 3.2.5. ABCC/MRP Transporters; 3.2.6. ABCB/ATM Transporters; 3.2.7. ABCG/PDR Transporters; 4. Metal Translocation Transporters; 4.1. HMA Family | |
| 505 | 8 | |a 4.2. MATE Family of Efflux ProteinsConclusion; References; Chapter 3: Update on Mechanisms Involved in Arsenic and Chromium Accumulation, Translocation and Homeostasis in Plants; Abstract; 1. Introduction; 2. Arsenic; 2.1. Arsenic Uptake; 2.2. Arsenic Metabolism and Accumulation; 2.2.1. As(V) Reduction; 2.3. Arsenic Association with Thiol Compounds and Sequestration in Vacuoles; 2.4. Arsenic Translocation; 2.5. Mechanisms Involved in As Hyperaccumulation; 2.6. Toxic Effects of Arsenic on Plants; 2.7. Arsenic Effects on Germination; 2.8. Arsenic Effects on Root and Shoot Growth and Plant Yield | |
| 505 | 8 | |a 2.9. Arsenic Effects on Physiological Processes2.9.1. Photosynthesis; 2.9.2. Antioxidant Enzymes; 2.9.3. Mineral Nutrition; 3. Chromium; 3.1. Chromium Uptake; 3.2. Chromium Metabolism; 3.2.1. Chromium Association with Thiol Compounds; 3.2.2. Chromium Accumulation and Translocation; 3.3. Toxic Effects of Chromium on Plants; 3.3.1. Chromium Effects on Germination; 3.3.2. Chromium Effects on Root and Shoot Growth; 3.4. Chromium Effects on Physiological Processes; 3.4.1. Photosynthesis; 3.4.2. Antioxidant Enzymes; 3.5. Water Relations and Mineral Nutrition; 3.6. Other Biochemical Effects | |
| 650 | 4 | |a Heavy metals / Environmental aspects | |
| 650 | 4 | |a Phytoremediation | |
| 650 | 4 | |a Plants / Effect of heavy metals on | |
| 650 | 7 | |a TECHNOLOGY & ENGINEERING / Environmental / General |2 bisacsh | |
| 650 | 7 | |a Heavy metals / Environmental aspects |2 fast | |
| 650 | 7 | |a Phytoremediation |2 fast | |
| 650 | 7 | |a Plants / Effect of heavy metals on |2 fast | |
| 650 | 4 | |a Umwelt | |
| 650 | 4 | |a Phytoremediation |a Plants |x Effect of heavy metals on |a Heavy metals |x Environmental aspects | |
| 700 | 1 | |a Gupta, Dharmendra Kumar |4 edt | |
| 700 | 1 | |a Chatterjee, Soumya |4 edt | |
| 776 | 0 | 8 | |i Erscheint auch als |n Druck-Ausgabe |a Heavy metal remediation : transport and accumulation in plants |
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Datensatz im Suchindex
| _version_ | 1804176614428246016 |
|---|---|
| any_adam_object | |
| author2 | Gupta, Dharmendra Kumar Chatterjee, Soumya |
| author2_role | edt edt |
| author2_variant | d k g dk dkg s c sc |
| author_facet | Gupta, Dharmendra Kumar Chatterjee, Soumya |
| building | Verbundindex |
| bvnumber | BV043782821 |
| collection | ZDB-4-EBA |
| contents | Plants have a very specific and efficient mechanism to obtain, translocate and store nutrients from the surrounding environment. The precise mechanism that helps a plant in nutrient translocation from root to shoot also, in the same way, transfers and stores toxic metals within their structure. Metal toxicity generally causes multiple direct or indirect effects on plants, affecting nearly all of their physiological functions. Plant tolerance to heavy metals depends largely on plant efficiency in uptake, translocation and sequestration of heavy metals in specific cell organelles or specialized HEAVY METAL REMEDIATION: TRANSPORT AND ACCUMULATION IN PLANTS; HEAVY METAL REMEDIATION: TRANSPORT AND ACCUMULATION IN PLANTS; Library of Congress Cataloging-in-Publication Data; Contents; Preface; References; Chapter 1: Mechanism of Metal Transporters in Plants; Abstract; 1. Introduction; 2. Metal Ion and Their Uptake from Soil; 2.1. Major Metal Transporters in Plants; 2.1.1. NRAMP Family; 2.1.2. CDF Family; 2.1.3. ZIP Family; 2.1.4. ABC Transporter; 2.1.5. P Type ATPase; 2.1.6. PIB-ATPases; 2.1.6.1. Zn/Cd/Co/Pb Subgroup of P1B-Type ATPases; 2.1.6.2. Cu/Ag Subgroup of P1B-Type ATPases 2.1.7. CaCA Transporter2.1.8. CNGC Transporter; 2.1.9.Copper Transporter; 3. Metal Ion Uptake and Transport in Root; 3.1. Iron (Fe) Uptake and Transport; 3.2. Zinc (Zn) Uptake and Transport; 3.3. Arsenic (As) Uptake and Transport; 3.4. Cadmium (Cd) Uptake and Transport; 3.5. Chromium (Cr) Uptake and Transport; 3.6. Lead (Pb) Uptake and Transport; 4. Root to Shoot Metal Translocation; 5. Detoxification and Sequestration of Toxic Metals; Conclusion; References; Chapter 2: Metal Transporters for Uptake, Sequestration and Translocation; Horticultural Science laboratory National Agronomic Institute of Tunisia,Tunis Mahragene, Tunisia; University of Carthage, Carthage, Tunisia; Abstract; 1. Introduction; 2. Metal Uptake Transporters; 2.1. ZIP Family; 2.2. NRAMP Family; 2.3. YSL Family; 3. Heavy Metals Sequestration; 3.1. Transporters of CDF Family; 3.2. Specificity of Transporters to Metals; 3.2.1. Zn-CDF; 3.2.2. Mn-CDF; 3.2.3. CAX Transporters; 3.2.4. ABC Transporters (ATP Binding Cassette); 3.2.5. ABCC/MRP Transporters; 3.2.6. ABCB/ATM Transporters; 3.2.7. ABCG/PDR Transporters; 4. Metal Translocation Transporters; 4.1. HMA Family 4.2. MATE Family of Efflux ProteinsConclusion; References; Chapter 3: Update on Mechanisms Involved in Arsenic and Chromium Accumulation, Translocation and Homeostasis in Plants; Abstract; 1. Introduction; 2. Arsenic; 2.1. Arsenic Uptake; 2.2. Arsenic Metabolism and Accumulation; 2.2.1. As(V) Reduction; 2.3. Arsenic Association with Thiol Compounds and Sequestration in Vacuoles; 2.4. Arsenic Translocation; 2.5. Mechanisms Involved in As Hyperaccumulation; 2.6. Toxic Effects of Arsenic on Plants; 2.7. Arsenic Effects on Germination; 2.8. Arsenic Effects on Root and Shoot Growth and Plant Yield 2.9. Arsenic Effects on Physiological Processes2.9.1. Photosynthesis; 2.9.2. Antioxidant Enzymes; 2.9.3. Mineral Nutrition; 3. Chromium; 3.1. Chromium Uptake; 3.2. Chromium Metabolism; 3.2.1. Chromium Association with Thiol Compounds; 3.2.2. Chromium Accumulation and Translocation; 3.3. Toxic Effects of Chromium on Plants; 3.3.1. Chromium Effects on Germination; 3.3.2. Chromium Effects on Root and Shoot Growth; 3.4. Chromium Effects on Physiological Processes; 3.4.1. Photosynthesis; 3.4.2. Antioxidant Enzymes; 3.5. Water Relations and Mineral Nutrition; 3.6. Other Biochemical Effects |
| ctrlnum | (ZDB-4-EBA)ocn891381445 (OCoLC)891381445 (DE-599)BVBBV043782821 |
| dewey-full | 628.4 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 628 - Sanitary engineering |
| dewey-raw | 628.4 |
| dewey-search | 628.4 |
| dewey-sort | 3628.4 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Bauingenieurwesen |
| format | Electronic eBook |
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| id | DE-604.BV043782821 |
| illustrated | Illustrated |
| indexdate | 2024-07-10T07:34:59Z |
| institution | BVB |
| isbn | 9781633215931 1633215938 9781633215689 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-029193881 |
| oclc_num | 891381445 |
| open_access_boolean | |
| owner | DE-1046 DE-1047 |
| owner_facet | DE-1046 DE-1047 |
| physical | 1 online resource (260 pages) illustrations (some color), tables |
| psigel | ZDB-4-EBA ZDB-4-EBA FAW_PDA_EBA |
| publishDate | 2014 |
| publishDateSearch | 2014 |
| publishDateSort | 2014 |
| publisher | Nova Science Publishers, Inc. |
| record_format | marc |
| series2 | Environmental research advances series |
| spelling | Heavy metal remediation transport and accumulation in plants Dharmendra Kumar Gupta and Soumya Chatterjee, editors New York, New York Nova Science Publishers, Inc. 2014 © 2014 1 online resource (260 pages) illustrations (some color), tables txt rdacontent c rdamedia cr rdacarrier Environmental research advances series Print version record Plants have a very specific and efficient mechanism to obtain, translocate and store nutrients from the surrounding environment. The precise mechanism that helps a plant in nutrient translocation from root to shoot also, in the same way, transfers and stores toxic metals within their structure. Metal toxicity generally causes multiple direct or indirect effects on plants, affecting nearly all of their physiological functions. Plant tolerance to heavy metals depends largely on plant efficiency in uptake, translocation and sequestration of heavy metals in specific cell organelles or specialized HEAVY METAL REMEDIATION: TRANSPORT AND ACCUMULATION IN PLANTS; HEAVY METAL REMEDIATION: TRANSPORT AND ACCUMULATION IN PLANTS; Library of Congress Cataloging-in-Publication Data; Contents; Preface; References; Chapter 1: Mechanism of Metal Transporters in Plants; Abstract; 1. Introduction; 2. Metal Ion and Their Uptake from Soil; 2.1. Major Metal Transporters in Plants; 2.1.1. NRAMP Family; 2.1.2. CDF Family; 2.1.3. ZIP Family; 2.1.4. ABC Transporter; 2.1.5. P Type ATPase; 2.1.6. PIB-ATPases; 2.1.6.1. Zn/Cd/Co/Pb Subgroup of P1B-Type ATPases; 2.1.6.2. Cu/Ag Subgroup of P1B-Type ATPases 2.1.7. CaCA Transporter2.1.8. CNGC Transporter; 2.1.9.Copper Transporter; 3. Metal Ion Uptake and Transport in Root; 3.1. Iron (Fe) Uptake and Transport; 3.2. Zinc (Zn) Uptake and Transport; 3.3. Arsenic (As) Uptake and Transport; 3.4. Cadmium (Cd) Uptake and Transport; 3.5. Chromium (Cr) Uptake and Transport; 3.6. Lead (Pb) Uptake and Transport; 4. Root to Shoot Metal Translocation; 5. Detoxification and Sequestration of Toxic Metals; Conclusion; References; Chapter 2: Metal Transporters for Uptake, Sequestration and Translocation; Horticultural Science laboratory National Agronomic Institute of Tunisia,Tunis Mahragene, Tunisia; University of Carthage, Carthage, Tunisia; Abstract; 1. Introduction; 2. Metal Uptake Transporters; 2.1. ZIP Family; 2.2. NRAMP Family; 2.3. YSL Family; 3. Heavy Metals Sequestration; 3.1. Transporters of CDF Family; 3.2. Specificity of Transporters to Metals; 3.2.1. Zn-CDF; 3.2.2. Mn-CDF; 3.2.3. CAX Transporters; 3.2.4. ABC Transporters (ATP Binding Cassette); 3.2.5. ABCC/MRP Transporters; 3.2.6. ABCB/ATM Transporters; 3.2.7. ABCG/PDR Transporters; 4. Metal Translocation Transporters; 4.1. HMA Family 4.2. MATE Family of Efflux ProteinsConclusion; References; Chapter 3: Update on Mechanisms Involved in Arsenic and Chromium Accumulation, Translocation and Homeostasis in Plants; Abstract; 1. Introduction; 2. Arsenic; 2.1. Arsenic Uptake; 2.2. Arsenic Metabolism and Accumulation; 2.2.1. As(V) Reduction; 2.3. Arsenic Association with Thiol Compounds and Sequestration in Vacuoles; 2.4. Arsenic Translocation; 2.5. Mechanisms Involved in As Hyperaccumulation; 2.6. Toxic Effects of Arsenic on Plants; 2.7. Arsenic Effects on Germination; 2.8. Arsenic Effects on Root and Shoot Growth and Plant Yield 2.9. Arsenic Effects on Physiological Processes2.9.1. Photosynthesis; 2.9.2. Antioxidant Enzymes; 2.9.3. Mineral Nutrition; 3. Chromium; 3.1. Chromium Uptake; 3.2. Chromium Metabolism; 3.2.1. Chromium Association with Thiol Compounds; 3.2.2. Chromium Accumulation and Translocation; 3.3. Toxic Effects of Chromium on Plants; 3.3.1. Chromium Effects on Germination; 3.3.2. Chromium Effects on Root and Shoot Growth; 3.4. Chromium Effects on Physiological Processes; 3.4.1. Photosynthesis; 3.4.2. Antioxidant Enzymes; 3.5. Water Relations and Mineral Nutrition; 3.6. Other Biochemical Effects Heavy metals / Environmental aspects Phytoremediation Plants / Effect of heavy metals on TECHNOLOGY & ENGINEERING / Environmental / General bisacsh Heavy metals / Environmental aspects fast Phytoremediation fast Plants / Effect of heavy metals on fast Umwelt Phytoremediation Plants Effect of heavy metals on Heavy metals Environmental aspects Gupta, Dharmendra Kumar edt Chatterjee, Soumya edt Erscheint auch als Druck-Ausgabe Heavy metal remediation : transport and accumulation in plants |
| spellingShingle | Heavy metal remediation transport and accumulation in plants Plants have a very specific and efficient mechanism to obtain, translocate and store nutrients from the surrounding environment. The precise mechanism that helps a plant in nutrient translocation from root to shoot also, in the same way, transfers and stores toxic metals within their structure. Metal toxicity generally causes multiple direct or indirect effects on plants, affecting nearly all of their physiological functions. Plant tolerance to heavy metals depends largely on plant efficiency in uptake, translocation and sequestration of heavy metals in specific cell organelles or specialized HEAVY METAL REMEDIATION: TRANSPORT AND ACCUMULATION IN PLANTS; HEAVY METAL REMEDIATION: TRANSPORT AND ACCUMULATION IN PLANTS; Library of Congress Cataloging-in-Publication Data; Contents; Preface; References; Chapter 1: Mechanism of Metal Transporters in Plants; Abstract; 1. Introduction; 2. Metal Ion and Their Uptake from Soil; 2.1. Major Metal Transporters in Plants; 2.1.1. NRAMP Family; 2.1.2. CDF Family; 2.1.3. ZIP Family; 2.1.4. ABC Transporter; 2.1.5. P Type ATPase; 2.1.6. PIB-ATPases; 2.1.6.1. Zn/Cd/Co/Pb Subgroup of P1B-Type ATPases; 2.1.6.2. Cu/Ag Subgroup of P1B-Type ATPases 2.1.7. CaCA Transporter2.1.8. CNGC Transporter; 2.1.9.Copper Transporter; 3. Metal Ion Uptake and Transport in Root; 3.1. Iron (Fe) Uptake and Transport; 3.2. Zinc (Zn) Uptake and Transport; 3.3. Arsenic (As) Uptake and Transport; 3.4. Cadmium (Cd) Uptake and Transport; 3.5. Chromium (Cr) Uptake and Transport; 3.6. Lead (Pb) Uptake and Transport; 4. Root to Shoot Metal Translocation; 5. Detoxification and Sequestration of Toxic Metals; Conclusion; References; Chapter 2: Metal Transporters for Uptake, Sequestration and Translocation; Horticultural Science laboratory National Agronomic Institute of Tunisia,Tunis Mahragene, Tunisia; University of Carthage, Carthage, Tunisia; Abstract; 1. Introduction; 2. Metal Uptake Transporters; 2.1. ZIP Family; 2.2. NRAMP Family; 2.3. YSL Family; 3. Heavy Metals Sequestration; 3.1. Transporters of CDF Family; 3.2. Specificity of Transporters to Metals; 3.2.1. Zn-CDF; 3.2.2. Mn-CDF; 3.2.3. CAX Transporters; 3.2.4. ABC Transporters (ATP Binding Cassette); 3.2.5. ABCC/MRP Transporters; 3.2.6. ABCB/ATM Transporters; 3.2.7. ABCG/PDR Transporters; 4. Metal Translocation Transporters; 4.1. HMA Family 4.2. MATE Family of Efflux ProteinsConclusion; References; Chapter 3: Update on Mechanisms Involved in Arsenic and Chromium Accumulation, Translocation and Homeostasis in Plants; Abstract; 1. Introduction; 2. Arsenic; 2.1. Arsenic Uptake; 2.2. Arsenic Metabolism and Accumulation; 2.2.1. As(V) Reduction; 2.3. Arsenic Association with Thiol Compounds and Sequestration in Vacuoles; 2.4. Arsenic Translocation; 2.5. Mechanisms Involved in As Hyperaccumulation; 2.6. Toxic Effects of Arsenic on Plants; 2.7. Arsenic Effects on Germination; 2.8. Arsenic Effects on Root and Shoot Growth and Plant Yield 2.9. Arsenic Effects on Physiological Processes2.9.1. Photosynthesis; 2.9.2. Antioxidant Enzymes; 2.9.3. Mineral Nutrition; 3. Chromium; 3.1. Chromium Uptake; 3.2. Chromium Metabolism; 3.2.1. Chromium Association with Thiol Compounds; 3.2.2. Chromium Accumulation and Translocation; 3.3. Toxic Effects of Chromium on Plants; 3.3.1. Chromium Effects on Germination; 3.3.2. Chromium Effects on Root and Shoot Growth; 3.4. Chromium Effects on Physiological Processes; 3.4.1. Photosynthesis; 3.4.2. Antioxidant Enzymes; 3.5. Water Relations and Mineral Nutrition; 3.6. Other Biochemical Effects Heavy metals / Environmental aspects Phytoremediation Plants / Effect of heavy metals on TECHNOLOGY & ENGINEERING / Environmental / General bisacsh Heavy metals / Environmental aspects fast Phytoremediation fast Plants / Effect of heavy metals on fast Umwelt Phytoremediation Plants Effect of heavy metals on Heavy metals Environmental aspects |
| title | Heavy metal remediation transport and accumulation in plants |
| title_auth | Heavy metal remediation transport and accumulation in plants |
| title_exact_search | Heavy metal remediation transport and accumulation in plants |
| title_full | Heavy metal remediation transport and accumulation in plants Dharmendra Kumar Gupta and Soumya Chatterjee, editors |
| title_fullStr | Heavy metal remediation transport and accumulation in plants Dharmendra Kumar Gupta and Soumya Chatterjee, editors |
| title_full_unstemmed | Heavy metal remediation transport and accumulation in plants Dharmendra Kumar Gupta and Soumya Chatterjee, editors |
| title_short | Heavy metal remediation |
| title_sort | heavy metal remediation transport and accumulation in plants |
| title_sub | transport and accumulation in plants |
| topic | Heavy metals / Environmental aspects Phytoremediation Plants / Effect of heavy metals on TECHNOLOGY & ENGINEERING / Environmental / General bisacsh Heavy metals / Environmental aspects fast Phytoremediation fast Plants / Effect of heavy metals on fast Umwelt Phytoremediation Plants Effect of heavy metals on Heavy metals Environmental aspects |
| topic_facet | Heavy metals / Environmental aspects Phytoremediation Plants / Effect of heavy metals on TECHNOLOGY & ENGINEERING / Environmental / General Umwelt Phytoremediation Plants Effect of heavy metals on Heavy metals Environmental aspects |
| work_keys_str_mv | AT guptadharmendrakumar heavymetalremediationtransportandaccumulationinplants AT chatterjeesoumya heavymetalremediationtransportandaccumulationinplants |