Soil remediation and plants: prospects and challenges
Gespeichert in:
| Weitere Verfasser: | |
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Amsterdam <<[u.a.]>>
Academic Press
2015
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXVIII, 724 S. Ill., graph. Darst. |
| ISBN: | 9780127999371 |
Internformat
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Datensatz im Suchindex
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|---|---|
| adam_text | Soil Remediation
and Plants
Prospects and Challenges
Khalid Rehman Hakeem
Faculty of Forestry, Universiti Putra Malaysia,
Serdang, Selangor, Malaysia
Muhammad Sabir
Institute of Soil and Environmental Sciences,
University of Agriculture, Faisalabad, Pakistan;
School of Plant Biology,
University of Western Australia,
Crawley, Australia
Munir Oztiirk
Department of Botany, Ege University, Izmir, Turkey;
Faculty of Forestry, Universiti Putra Malaysia,
Serdang, Selangor, Malaysia;
ICCBS, Karachi University, Pakistan
Ahmet Ruhi Mermut
Department of Soil Sciences, University of Saskatchewan, Canada;
Harran University, Agriculture Faculty, Soil Science
Department, §anliurfa, Turkey
ELSEVIER
AMSTERDAM • BOSTON • HEIDELBERG
LONDON • NEW YORK • OXFORD • PARIS • SAN DIEGO
SAN FRANCISCO • SINGAPORE • SYDNEY • TOKYO
Acadcmic Press is an imprint of Hlse icr
Contents
Preface xix
Foreword xxi
Contributors xxv
1 Phytoremediation of Soils: Prospects and Challenges
Orooj Surriya, Sayeda Sarah Sateem, Kinza Waqar and
Alvina Gul Kazi
Introduction 1
Types of Soil Pollutants 1
The Global Scenario of Soil Pollution 2
Effects of Soil Pollution on Human Health and Environment 4
Technologies for Site Remediation 5
Electroremediation 5
Soil Flushing 5
Soil Vapour Extraction 5
Stabilization 6
Soil Washing 7
Bio-piles 7
Phytoremediation 7
Phytoremediation System Design 8
Economics of Phytoremediation 11
Considerations for Waste Disposal 12
Phytoremediation Technologies 12
Heavy Metal Soil Pollutants and Use of Phytoremediation 14
Approach to the Removal of Heavy Metal Soil Pollutants 14
Ideal Plant Characteristics for Phytoremediation 15
Basic Process of Hyperaccumulation 15
Arsenic 16
The Health Hazards of Arsenic 1 6
Use of Phytoremediation to Remove Arsenic 1 7
Lead • 18
The Health Hazards Caused by Lead 18
Use of Phytoremediation to Clean Up Lead 19
Zinc 20
The Health Hazards of Zinc 20
Use of Phytoremediation to Clean Up Zinc 20
Copper 21
The Health Hazards of Copper 21
Use of Phytoremediation to Clean Up Copper 21
v
GD Contents
Cadmium 23
The Health Hazards of Cadmium 23
Use of Phytoremediation to Clean Up Cadmium 23
Mercury 24
The Health Hazards of Mercury 24
Use of Phytoremediation to Clean Up Mercury 24
Prospects for Phytoremediation 26
Phytoremediation Is Solar Energy-Driven and Cost-Effective 27
Phytoremediation Is Environmental Friendly 27
Phytoremediation Can Help Mining Industries 27
Phytoremediation Cleans Up Contaminants in Soil and Water 27
The Reduction of Noise Pollution and Genetically Engineered
Phytoremediation Plants 28
Challenges of Phytoremediation 28
The Contaminant Can Be Extracted from as Deep as the Plant s Roots 29
Slow Growth Cycle of Phytoremediation Plants 29
Suitable Climatic Conditions and the Availability of Space for
Phytoremediation 29
Less Tolerance in Plants for Contaminant Uptake 29
Accumulation of Contaminants in Plant Tissues 30
Genetically Modified Plants in Phytoremediation: An Unexpected or
Unknown Threat? 30
Accessibility of Sites for Phytoremediation 30
Techniques for Genetic Improvement of Plants Used for
Phytoremediation 30
Example: Hyperaccumulation of Metal and Plant Response after
Genetic Modification 31
Use of Recombinant DNA Technology in Genetic Improvement for
Phytoremediation 32
Introduction of Genes Capable of Altering the Oxidation State of
Heavy Metals 32
Use of Phytochelatins to Capture Metal Ions 32
Conclusion 33
References 33
2 Soil Contamination with Metals: Sources, Types and
Implications
Waqar Ahmad, Ullah Najeeb and Munir Hussain Zia v
Introduction 37
Heavy Metals 39
Sources of Heavy Metals in Soil 39
Effects of Heavy Metals in Soils and Plants 43
Build-Up of Heavy Metals in Soil 43
Toxicity Symptoms in Plants 43
Risk Assessment Using Bioavailability and Bio-Accessibility Techniques 48
P Control Measures 51
s Removal of Heavy Metals from Soils 51
Contents
Phytoextraction of Heavy Metals » 51
Chelator-Assisted Heavy Metals Phytoremediation 52
Biochar Application as an Emerging Tool for Reducing Heavy
Metal Impacts •„ 53
Conclusions 55
References 55
3 Phytoremediation: A Promising Strategy on the
Crossroads of Remediation
Arif Tasleem Jan, Arif Ali and Qazi Mohd Rizwanul Haq
Introduction 63
Metal Pollutants and Human Health 64
Microbial-Based Remediation 66
Enhancing Bioremediation Through Genetic Engineering 67
Surface Expression of Novel Metal Binding Peptides and Proteins 68
Phytoremediation 68
Phytoextraction 69
Rhizoremediation 73
Phytostabilization 74
Insights into Genetic Engineering Approaches for Phytoremediation 75
Conclusions 78
References 78
4 Phytoremediation: Mechanisms and Adaptations
Muhammad Sabir, Ejaz Ahmad Waraich, Khalid Rehman Hakeem,
Miinir Ozturk, Hamaad Raza Ahmad and Muhammad Shahid
Introduction 85
Phytoremediation and Mechanisms 86
Phytoextraction 86
Phytostabilization 93
Phytovolatilization 96
Conclusions 97
References 97
5 Phytoremediation: An Eco-Friendly Green Technology for
Pollution Prevention, Control and Remediation
Tanveer Bilal Pirzadah, Bisma Malik, Inayatullah Tahir,
Manoj Kumar, Ajit Varma and Reiaz Ul Rehman
Introduction 107
Background 108
Plants Response to Heavy Metals 109
Metal Excluders 110
Metal Indicators 110
Metal Accumulating Plant Species 110
Qjjjj Contents
Factors Affecting Phytoremediation 115
Availability of Metals in Soil 115
Plant Uptake and Translocation 117
Plant Microbe Interactions 11 7
Role of Metal Chelators 118
Mechanism for Metal Detoxification 119
Conclusions and Future Perspectives 121
References 122
6 Recent Trends and Approaches in Phytoremediation
Bisma Malik, Tanveer Bilal Pirzadah, Inayatullah Tahir,
Tanvir ul Hassan Dar and Reiaz Ul Rehman
Introduction 131
Phytoremediation Technologies 132
Phytoextraction 132
Phytovolatilization 134
Phytostabilization 135
Rhizofiltration 136
Genetic Engineering to Improve Phytoremediation 137
Conclusions and Future Perspectives 142
References 142
7 Evaluation of Four Plant Species for Phytoremediation of
Copper-Contaminated Soil
Parisa Ahmadpour, Fatemeh Ahmadpour, SeyedMousa Sadeghi,
Farhad Hosseini Tayefeh, Mohsen Soleimani and Arifin Bin Abdu
Introduction 147
General Background 147
Problem Statement 148
Objectives 148
Literature Review 149
Environmental Pollution and Sources of Contamination 1 49
Soil Contamination by Heavy Metals 149
Toxicity of Heavy Metals in Plants 151
Uptake and Translocation of Copper by Plant Parts (Leaves,
Stems and Roots) ,, 153
Remediation of Heavy Metals 1 53
Criteria for Metal Accumulation in Plants 1 56
Materials and Methods 159
Description of Study Area 159
Planting Materials 159
Experimental Design and Treatments 160
, Plant Species and Planting 160
| Data Collection 160
p Laboratory Analysis 161
Contents
Evaluation of Heavy Metals Uptake Using Removal Efficiency (RE),
Bioconcentration Factor (BCF) and Translocation Factor (TF)
Statistical Analysis
Results and Discussion
Physico-Chemical Properties of the Control Media
Summary, General Conclusion and Recommendation for
Future Research
Conclusions
Recommendations for Future Research
References
8 Role of Phytoremediation in Radioactive Waste
Treatment
L F De Filippis
Introduction
Radioactive Material and Safety
Classification and Categories
Management and Disposal
Transportation and Responsibility
Phytoremediation and Non-Plant Methods
Engineering-Based Technologies
In Situ Biological Remediation
Phytoremediation and Hyperaccumulation
Methods in Phytoremediation
Phytoextraction
Phytodegradation
Phytostabilization
Phytovolatilization
Rhizofiltration
Rhizodegradation
Vegetation Caps and Buffer Strips
Hydraulic Control
Tolerance and Extraction
Uptake and Distribution
Wetlands and Aquatic Phytoremediation
Constructed Wetlands
Combinations of Phytoremediation Methods
Treatment, Evaluation and Objectives
Ground Water
Surface Water and Waste Water
Soil, Sediment and Sludge
Air
Costs and Economics
Transgenic Phytoremediation
Conclusions and Future Directions
References
QD
Contents
9 Plant-Microbe Interactions in Phytoremediation
Ibrahim llker Ozyigit and llhan Dogan
Definition of Phytoremediation
Accumulator/Hyperaccumulator Plants
Phytoremediation Applications
Interactions Between Plants and Microbes in Phytoremediation
Rhizosphere Microbiome
Stimulation of Plant Growth by Microbial Communities
Acknowledgements
References
10 Soil Pollution in Turkey and Remediation Methods
Hatice Daghan and Munir Ozturk
Introduction
Land Use of Turkish Soils
Sources of Soil Pollution in Turkey
Erosion
Parent Material
Agricultural Activities
Industrial Activities
Urbanization
Mining
Remediation Methods for Polluted Soils
Remediation Studies in Turkey
Radioactive Pollution
Conclusion
References
11 Soil Pollution Status and Its Remediation in Nepal
Anup K C and Subin Kalu
Introduction
Soil Characteristics
Soils of Nepal
Alluvial Soil
Sandy and Alluvial Soil
Gravelly Soil
Residual Soil
Glacial Soil
Entisols
Ustifluvents
Ustorthents
« Fluvaquents
| Inceptisols
!
Contents ( xi )
Haplaquents 318
Dystrochrepts 319
Ustochrepts 319
Cryumbrepts •, 319
Haplumbrepts 320
Cryochrepts 320
Eutrochrepts 320
Spodosols 320
Mollisols 320
Haplustolls 320
Cryoborolls 321
Alfisols 321
Ultisols 321
Aridosols 321
Nutrient and Heavy Metal Status in the Soils of Nepal 322
Remediation of Toxicity from Soil 325
Remediation Studies on Removal of Toxicity in Soil of Nepal 326
Conclusions 326
References 327
12 Transfer of Heavy Metals and Radionuclides from
Soil to Vegetables and Plants in Bangladesh
Mahfuza S Sultana, Y N Jolly, S Yeasmin, A Islam, S Satter
and Safi M Tareq
Introduction 331
Materials and Methods 333
Geology and Geomorphology of the Study Area 333
Sampling 334
Analysis of Heavy Metals and Radioactivity 335
Data Analysis 338
Results and Discussion 341
Concentrations of Heavy Metals in the Top Soil 341
Pollution Index Assessment of Soil 342
Levels of Heavy Metals in Plants and Vegetables 344
Pollution Index Assessment of Different Crops 348
Comparative Study of the Heavy Metal Contents in Soil
and Plants 349
Heavy Metal Transfer from Soil to Food Crops 350
Health Risk Assessment of Heavy Metals in Vegetables 354
Radioactivity in Soil 360
Radioactivity in Vegetables 361
Transfer Factor 362
Conclusions 362
Acknowledgements 363
References 364
GD Contents
13 Remediating Cadmium-Contaminated Soils by Crowing
Grain Crops Using Inorganic Amendments
Muhammad Zia-ur-Rehman, Muhammad Sabir, Muhammad Rizwan,
Saifullah, Hamaad Raza Ahmed and Muhammad Nadeem
Introduction
Natural Cadmium Levels in Soil
Sources of Cadmium Contamination of Agricultural Soils
Bioassessment of Cadmium in Soils
Factors Influencing the Accumulation of Cadmium in Crops
Soil Factors
Microorganisms
Climatic Factors
Cadmium Uptake and Accumulation in Plants
Effects on Seed Germination
Effects on Plant Growth and Biomass
Effects on Mineral Nutrients
Effects on Photosynthetic Pigments
Cd-lnduced Oxidative Stress in Plants
Miscellaneous Toxic Effects
Plant Response To Cd Concentrations
Threshold Bio-Available Concentration of Cd
Remediation of Cd-Contaminated Soils
Metals Response to Calcium Containing Inorganic
Amendments
Metals Response to Phosphorus Containing Amendments
Metals Behaviour in Response to Ammonium Containing
Amendments
Metals Behaviour in Response to Sulphur-Containing
Amendments
Conclusions
References
14 Phytoremediation of Pb-Contaminated Soils Using
Synthetic Chelates
Saifullah, Muhammad Shahid, Muhammad Zia-Ur-Rehman,
Muhammad Sabir and Hamaad Raza Ahmad
Introduction
The Problem of Pb
Chelating Agents
Ethylene Diamine Tetraacetic Acid (EDTA)
Ethylene Diamine Disuccinic Acid
Nitrilotriacetic Acid (NTA)
Comparison of Synthetic Chelating Agents
Conclusions
p References
37G
Contents
15 Spatial Mapping of Metal-Contaminated Soils
H R Ahmad, T Aziz, Z R Rehman and Saifullah
Introduction % 415
Geophysical Techniques to Assess Spatial Variability 417
Global Positioning System (GPS) 417
Remote Sensing 417
Geographic Information System 418
Histogram 419
The QQPIot 420
Semivariogram 420
Inverse Weighted Distance 421
Krigging 421
Creating a Database File for GIS Environment 423
Conclusions 427
References 428
16 Arsenic Toxicity in Plants and Possible Remediation
Mirza Hasanuzzaman, Kamrun Nahar, Khalid Rehman Hakeem,
Munir Ozturk and Masayuki Fujita
Introduction 433
Environmental Chemistry of Arsenic 435
Sources of Arsenic Contamination in Soil and Environment 436
Status of Arsenic Toxicity in the World 438
Arsenic Hazard: A Bangladesh Perspective 441
Arsenic Uptake and Transportation in Plants 448
Plant Responses to Arsenic Toxicity 451
Seed Germination 451
Growth 455
Water Relations 456
Photosynthesis 457
Yield 459
Oxidative Stress 460
Antioxidant Defence in Plants in Response to
Arsenic Stress 461
Remediation of Arsenic Hazards 468
Agronomic Management 468
Phytoremediation of Arsenic-Contaminated Soils 470
Presumed Phytochelatin-Mediated Detoxification of
As Toxicity 483
Role of Biotechnology in Remediation of Arsenic
Toxicity 485
Conclusion and Future Perspectives 485
Acknowledgements 486
References 486
Contents
17 Phytoremediation of Metal-Contaminated Soils Using
Organic Amendments: Prospects and Challenges
Muhammad Sabir, Muhammad Zia-ur-Rehman, Khalid Rehman
Hakeem and Saifullah
Background 503
Sources of Metals 505
Role of OM in Phytoavailability of Metals 506
Organic Amendments and Phytoavailability of Metals in
Contaminated Soils 509
Manures 509
Compost 510
Activated Carbon / Biochar 511
Pressmud 512
Effect of Time on Decomposition of Organic Amendments
and Metal Phytoavailability 512
Residual Effect of Organic Amendments on Metal Phytoavailability 514
Organic Acids and Metal Phytoavailability 515
Phytoremediation with Organic Amendments: Conclusion
and Future Thrust 515
References 516
18 Soil Contamination, Remediation and Plants:
Prospects and Challenges
M S Abdullahi
Introduction 525
Sources of Heavy Metals in Soil 527
Fertilizers 528
Pesticides 528
Biosolids and Manures 528
Wastewater 529
Metal Mining, Milling Processes and Industrial Wastes 530
Airborne Sources 530
Potential Risk of Heavy Metals to Soil 531
Soil Concentration Ranges and Regulatory Guidelines for
Some Heavy Metals 531
Remediation of Contaminated Soil by Heavy Metals v 532
Prevention of Heavy Metal Contamination 536
Traditional Remediation of Contaminated Soil 536
Management of Contaminated Soil 537
The Use of Plants for Environmental Clean-Up 538
The Use of Plants for Treating Metal-Contaminated Soils 538
Example of Disposal 539
» Preventive Steps 539
5 Classification of Heavy Metals 540
V Sources of Heavy Metals in the Environment 540
5 Benefits of Heavy Metals to Plants 541
Contents (xvj
Future Prospects 3 542
Challenges 542
Conclusions 543
References •, 543
19 Improving Phytoremediation of Soil Polluted with Oil
Hydrocarbons in Georgia
G/ a Khatisashvili, Lia Matchavariani and Ramaz Cakhokidze
Introduction 547
Characterization of Soil Types 549
Selection of Microorganisms 550
Selection of Plants 551
Determination of the Degree of Oxidative Degradation of
Hydrocarbons 557
Revelation of Plant-Microbial Interaction 559
Model Experiments 559
References 567
20 Remediation of Cd-Contaminated Soils: Perspectives and
Advancements
Syed Hammad Raza, Fahad Shafiq, Umer Rashid, Muhammad
Ibrahim and Muhammad Adrees
Background and Introduction
Cadmium Emissions
Soil Dynamics, Retention and Availability of Metals
Dynamics of Cadmium in Soils
Influence of the Associated Cations and Anions on Cadmium
Bioavailability in Soil
Response of Cd Towards Natural Elemental Inorganic Amendments
Calcium (Ca)
Nitrogen (N)
Sulphur (S)
Zinc (Zn)
Phosphorus (P)
Iron (Fe)
Manganese, Silicon and Chloride
Organic Amendments Versus Cadmium-Contaminated Soils
Natural Organic Additives
Root Exudates and the Concept of Organic Acids as Natural Chelators
Low-Molecular-Weight Organic Acids and Cadmium Chelation
Efficacy of Synthetic Organic Chelating Agents Towards Cadmium
Recent Presented Reports Regarding Grain Crops
Conclusions and the Concept of Coupled Phytoremediation as
a Future Perspective
References
Contents
21 Phytoremediation of Radioactive Contaminated Soils
Muhammad Ibrahim, Muhammad Adrees, Umer Rashid, Syed
Hammad Raza and Farhat Abbas
Introduction
Scope and Limitations
Major Sources of Radioactive Contaminants to Soil
and Environment
Nuclear Weapons Testing
Production of Nuclear Weapons
The Nuclear Fuel Cycle
Industrial Processes / Techniques Involving
Radionuclides
Research Activities
Phytoremediation
Possible Roles of Phytoremediation
Phytomanagement
Phytoextraction
The Potential for Phytoextraction
Associated Risks
Important Radionuclides
Caesium (137Cs)
Strontium (90Sr)
Uranium (238U)
Risks and Potential
Rhizofiltration
Possibilities and Prospects
Non-Food Crops / Alternative Crops
Forestry
Biofuel / Biodiesel Crops
Steps Involved in Remediation Programme
Management
Major Steps in the Management of a Remediation
Programme
Planning for Remediation
Site Characterization
Remediation Criteria
Remediation Strategy
Soil Solution Uranium (238U) s
Agricultural and Forested Zones and Their Remediation
Phytostabilization of Radionuclide Contaminated Soils
Remediation Actions Implementation
Conducting Post-Remediation Activities
Special Considerations
Remediation of Areas of Extensive Surface
Contamination
References
Contents C xvii )
22 Heavy Metal Accumulation in Serpentine Flora of
Mersin-Findikpinari (Turkey) - Role of Ethylenediamine
Tetraacetic Acid in Facilitating Extraction of Nickel
Nurcan Koleli, Aydeniz Demir, Cetin Kantar, Gunsu Altindisli
Atag, Kadir Kusvuran arid Riza Binzet
Introduction 629
Materials and Methods 632
Field Study: Site Description, Soil Characterization, Plant Analysis
and Plant Selection 632
Greenhouse Study: Soil Characterization, Artificial Soil
Contamination, Pot Experiment and Plant Analysis 633
Statistical Analysis 635
Results and Discussion 635
Field Study 635
Greenhouse Study 645
Conclusion 654
Acknowledgements 655
References 655
23 Phytomanagement of Padaeng Zinc Mine Waste, Mae
Sot District, Tak Province, Thailand
MNV Prasad, Woranan Nakbanpote, Abin Sebastian,
Natthawoot Panitlertumpai and Chaiwat Phadermrod
Introduction 661
Phytomanagement of A Zinc-Mine-Industry-Ravaged Ecosystem 665
Phytomanagement for Sustainable Agriculture in the Vicinity of
Mae Sot Zinc Mine 668
Feasible Options for the Management of Arable Lands Mine
Tailing Water 675
Soil Remediation 677
Reduction of Cd in Crop Produce 681
Conclusions 682
Acknowledgements 682
References 683
24 Effect of Pig Slurry Application on Soil Organic Carbon
Ibrahim Halil Yanardag, Asuman BuyiikkiligVanardag, Angel
Faz Cano and Ahmet Ruhi Mermut
Introduction: Importance of Soil Organic Matter 689
Pig Slurry Application 690
Effect of Pig Slurry Application on Soil Organic Carbon 691
Black Carbon 692
Soluble Carbon 693
Microbial Biomass Carbon 695
( xviii) Contents
Soil Respiration 697
Carbon Functional Groups 698
Stable Carbon Isotope 699
Conclusions 701
References 701
Index 707
o
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| genre | Aufsatzsammlung gnd |
| genre_facet | Aufsatzsammlung |
| id | DE-604.BV042143303 |
| illustrated | Illustrated |
| indexdate | 2024-07-10T01:13:45Z |
| institution | BVB |
| isbn | 9780127999371 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-027583235 |
| oclc_num | 915483005 |
| open_access_boolean | |
| owner | DE-11 DE-29 |
| owner_facet | DE-11 DE-29 |
| physical | XXVIII, 724 S. Ill., graph. Darst. |
| publishDate | 2015 |
| publishDateSearch | 2015 |
| publishDateSort | 2015 |
| publisher | Academic Press |
| record_format | marc |
| spelling | Soil remediation and plants prospects and challenges [ed. by] Khalid Rehman Hakeem ... Amsterdam <<[u.a.]>> Academic Press 2015 XXVIII, 724 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Vegetation (DE-588)4187458-4 gnd rswk-swf Boden-Pflanze-System (DE-588)4274826-4 gnd rswk-swf Phytoremediation (DE-588)4723845-8 gnd rswk-swf Melioration (DE-588)4038544-9 gnd rswk-swf Aufsatzsammlung gnd rswk-swf Melioration (DE-588)4038544-9 s Vegetation (DE-588)4187458-4 s Aufsatzsammlung f DE-604 Phytoremediation (DE-588)4723845-8 s Boden-Pflanze-System (DE-588)4274826-4 s 1\p DE-604 Hakeem, Khalid Rehman edt HEBIS Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027583235&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Soil remediation and plants prospects and challenges Vegetation (DE-588)4187458-4 gnd Boden-Pflanze-System (DE-588)4274826-4 gnd Phytoremediation (DE-588)4723845-8 gnd Melioration (DE-588)4038544-9 gnd |
| subject_GND | (DE-588)4187458-4 (DE-588)4274826-4 (DE-588)4723845-8 (DE-588)4038544-9 |
| title | Soil remediation and plants prospects and challenges |
| title_auth | Soil remediation and plants prospects and challenges |
| title_exact_search | Soil remediation and plants prospects and challenges |
| title_full | Soil remediation and plants prospects and challenges [ed. by] Khalid Rehman Hakeem ... |
| title_fullStr | Soil remediation and plants prospects and challenges [ed. by] Khalid Rehman Hakeem ... |
| title_full_unstemmed | Soil remediation and plants prospects and challenges [ed. by] Khalid Rehman Hakeem ... |
| title_short | Soil remediation and plants |
| title_sort | soil remediation and plants prospects and challenges |
| title_sub | prospects and challenges |
| topic | Vegetation (DE-588)4187458-4 gnd Boden-Pflanze-System (DE-588)4274826-4 gnd Phytoremediation (DE-588)4723845-8 gnd Melioration (DE-588)4038544-9 gnd |
| topic_facet | Vegetation Boden-Pflanze-System Phytoremediation Melioration Aufsatzsammlung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027583235&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT hakeemkhalidrehman soilremediationandplantsprospectsandchallenges |