nach oben

Erschienen in:

2024 | OriginalPaper | Buchkapitel

Exploring Biotechnological Strategies in the Monitoring of Soil Quality

verfasst von : Linda U. Obi, Frances N. Olisaka, Christabel Ene, Uchenna Aniakor

Erschienen in: The Marginal Soils of Africa

Verlag: Springer Nature Switzerland

Einloggen

Aktivieren Sie unsere intelligente Suche, um passende Fachinhalte oder Patente zu finden.

search-config

KI-gestützte Suche

Aus

Abstract

Land degradation caused by factors such as climate change and pollution is among the prominent environmental challenges currently confronting the world; this has resulted in poor soil quality leading to loss of soil fertility as well as loss of biodiversity. In order to address the adverse implications of climate change and improve food productivity and ecosystem function, it is necessary to minimize land degradation and rehabilitate marginal or degraded lands. This can be achieved through monitoring soil quality, including identifying soil health indicators to detect changes caused by both natural processes and human activities such as changes in land use, pesticide application, and fertilizer use. Monitoring of soil quality can provide valuable information on soil health and ecosystem functioning. Despite the importance of soil monitoring indicators, certain limitations have been observed. In recent times, biotechnological strategies for monitoring soil quality have gained increasing attention in evaluating the soil’s chemical, physical, and biological features as it has allowed for a more efficient and accurate soil quality analysis. Current developments in biotechnology have necessitated the need to explore the prospect of incorporating biotechnological approaches in the monitoring of soil quality. This includes soil enzymes, microbial biomass, diversity, and activities, nano biosensors, metagenomics, etc. The application of biotechnological approaches as sustainable means of monitoring soil quality for possible reclamation of marginal lands forms the basis of this chapter.

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

Jetzt informieren

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

Jetzt informieren

Vorheriges Kapitel Remediation Strategies That Can Be Adopted to Reclaim Degraded Soils in the Communal Areas of Zimbabwe

Nächstes Kapitel The Use of Nanofertilizers as Micronutrients to Improve Marginal Soils and Crop Production

Adetunji AT, Lewu FB, Mulidzi R, Ncube B (2017) The biological activities of ꞵ-glucosidase, phosphatase and urease as soil quality indicators: a review. J Soil Sci Plant Nutr 17(3)

Ahmad A, Yaseen M, Ahmed I, Niamat B, Gondal AH, Aziz A et al (2022) Response of mulching on soil physical and biochemical properties and functions. In: Mulching in agroecosystems: plants, soil & environment. Springer Nature Singapore, Singapore, pp 89–100CrossRef

Alkorta I, Aizpurua A, Riga P, Albizu I, Amézaga I, Garbisu C (2003) Soil enzyme activities as biological indicators of soil health. Rev Environ Health 18(1):65–73CrossRef

Al-Maliki S, Al-Taey DKA, Al-Mammori HZ (2021) Earthworms and eco-consequences: considerations to soil biological indicators and plant function: a review. Acta Ecologica Sinica

Al-Yasiri K (2019) Pesticides and their impact on contamination of agricultural soils located between Al-Kifl Stream and Awfi River. Babylon Univ J Hum Sci 5:91, 92, 94, 96

Amara DMK, Sawyerr PA, Saidu DH, Vonu OS, Musa RM, Mboma JCA et al (2022) Studies on the genesis of soils in Jong River Basin in the Northern Province of Sierra Leone. Open J Geol 12(3):273–293CrossRef

Amooh MK, Bonsu M (2015) Effects of soil texture and organic matter on evaporative loss of soil moisture. J Agric Ecol 3(3):152–161

Aravind J, Kamaraj M, Prashanthi Devi M et al (2021) Strategies and tools for pollution mitigation. SpringerCrossRef

Arit E (2016) The soil cation exchange capacity and its effects on soil fertility

Ascough JC, Ahuja LR, McMaster GS, Ma L et al (2019) Agriculture models. In: Fath B (ed) Encyclopedia of ecology, 2nd edn. Elsevier, pp 1–10

Awotoye OO, Dada AC, Arawomo GAO (2011) Impact of palm oil processing effluent discharge on the quality of receiving soil and river in South Western Nigeria. J Appl Sci Res 7(2):111–118

Azad AB, Amin L, Sidik NM (2014) Genetically engineered organisms for bioremediation of pollutants in contaminated sites. Chin Sci Bull 59(703)

Bach EM, Ramirez KS, Fraser TD, Wall DH (2020) Soil biodiversity integrates solutions for a sustainable future. Sustainability 12(7):2662CrossRef

Bansiwal K, Maheshvari RP (2018) Soil pollution and its solutions. Int J Eng Res Gen Sci 7:550–553

Barkha S, Shalini T, Kailash CK (2022) Microbiome engineering and biotechnology. Wiley online library. https://doi.org/10.1002/9781119830795CrossRef

Behera BK, Prasad R (2020) Strategies for soil management. In: Behera BK, Prasad R (eds) Environmental technology and sustainability. Elsevier, pp 143–167CrossRef

Bhowmik A, Kukal SS, Saha D, Sharma H et al (2019) Potential indicators of soil health degradation in different land use-based ecosystems in the Shiwaliks of Northwestern India. Sustainability 11(14):3908CrossRef

Blagodatskaya E, Kuzyakov Y (2013) Active microorganisms in soil: critical review of estimation criteria and approaches. Soil Biol Biochem 67:192–211CrossRef

Borrelli P, Robinson DA, Panagos P, Lugato et al (2020) Land use and climate change impacts on global soil erosion by water (2015-2070). Proc Natl Acad Sci 117(36):21994–22001CrossRef

Bossolani JW, Crusciol CAC, Leite MFA et al (2021) Modulation of the soil microbiome by long-term Ca-based soil amendments boosts soil organic carbon and physicochemical quality in a tropical no-till crop rotation system. Soil Biol Biochem 156:108188CrossRef

Brookes PC, Cayuela ML, Contin M et al (2008) The mineralization of fresh and humified soil organic matter by the soil microbial biomass. Waste Manag 28(4):716–722CrossRef

Bünemann ES, Bongiorno G, Bai Z, Creamer RE et al (2018) Soil quality- a critical review. Soil Biol Biochem 120:105–125CrossRef

Cambi M, Giannetti F, Bottalico F, Travaglini D et al (2018) Estimating machine impact on strip roads via close-range photogrammetry and soil parameters: a case study in Central Italy. iForest 11:148–154CrossRef

Čechmánková J, Skála J, Sedlařík V, Duřpeková S et al (2021) The synergic effect of whey-based hydrogel amendment on soil water holding capacity and availability of nutrients for more efficient valorization of dairy by-products. Sustainability 13(19):10701CrossRef

Chalise D, Kumar L, Kristiansen P (2019) Land degradation by soil erosion in Nepal: a review. Soil Syst 3(1):12CrossRef

Chowdhury N, Marschner P, Burns RG (2011) Soil microbial activity and community composition: impact of changes in matric and osmotic potential. Soil Biol Biochem 43(6):1229–1236CrossRef

Corstanje R, Mercer TG, Rickson RJ et al (2017) Physical soil quality indicators for monitoring British soils. Solid Earth 8(5):1003–1016CrossRef

Dai Y, Qiao X, Wang X (2018) Study on cation exchange capacity of agricultural soils. Mater Sci Eng 392

Delgado-Baquerizo M, Oliverio AM, Brewer TE et al (2018) A global atlas of the dominant bacteria found in soil. Science 359(6373):320–325CrossRef

Demir Z (2020) Effects of microbial bio-fertilizers on soil physicochemical properties under different soil water regimes in greenhouse grown eggplant (Solanum Melongena L). Commun Soil Sci Plant Anal 51(14):1888–1903CrossRef

Deshesh TH, Alk AA, Faten AA (2019) Influence of some natural soil conditioners under different levels of mineral nitrogen on sandy soil properties and maize productivity. J Soil Sci 4:261–274

Dietz S, Adger WN (2003) Economic growth, biodiversity loss and conservation effort. J Environ Manag 68(1):23–35CrossRef

Dora N (2019) The role of soil pH in plant nutrition and soil remediation. Appl Environ Soil Sci 5794869

Doran JW (1996) Soil health and global sustainability. Soil Quality is in the Hands of the Land Manager 45

Dupont ST, Kalcsits T, Clark K (2021) Soil health indicators for central Washington orchards. PLos ONE 16(10)

Ejaz MK, Aurangzib M, Iqbal R, Shahzaman M et al (2022) The use of soil conditioners to ensure a sustainable wheat yield under water deficit conditions by enhancing the physiological and antioxidant potentials. Land 11(3):368CrossRef

Escobar-Zepeda A, Vera-Ponce de León A, Sanchez-Flores A (2015) The road to metagenomics: from microbiology to DNA sequencing technologies and bioinformatics. Front Genet 6:348CrossRef

Eudoxie G, Martin M (2019) Compost tea quality and fertility. Organic fertilizers-history, production and applications

Feng S, Wen H, Ni S et al (2019) Degradation characteristics of soil-quality-related physical and chemical properties affected by collapsing gully: the case of subtropical hilly region China. Sustainability 11(12):3369CrossRef

Fierer N, Wood SA, de Mesquita CPB (2021) How microbes can, and cannot, be used to assess soil health. Soil Biol Biochem 153:108111CrossRef

Fungo B, Lehmann J, Kalbitz K, Thionģo M, Tenywa M, Okeyo I, Neufeldt H (2019) Ammonia and nitrous oxide emissions from a field Ultisol amended with tithonia green manure, urea, and biochar. J Biol Fertil Soils 55:135–148CrossRef

Garba R, Kumar V (2020) Microrganism based biosensors to detect soil pollutants. Plant Arch 20(2):2509–2516

Gardi C, Jeffery S, Saltelli A (2013) An estimate of potential threats levels to soil biodiversity in EU. Global Change Biol 19:1538–1548CrossRef

George PBL, Lallias D, Creer S et al (2019) Divergent national-scale trends of microbial and animal biodiversity revealed across diverse temperate soil ecosystems. Nat Commun 10:1107CrossRef

Goa T, Zewude I (2021) Review on climate change impact on soils: adaptation and mitigation. Int J Environ Pollut Res 9(2):58–65

Gong X, Huang D, Liu Y et al (2018) Remediation of contaminated soils by biotechnology with nanomaterials: bio-behavior, applications, and perspectives. Crit Rev Biotechnol 38(3):455–468CrossRef

Graham EB, Crump AR, Kennedy DW et al (2018) Multi ’omics comparison reveals metabolome biochemistry, not microbiome composition or gene expression, corresponds to elevated biogeochemical function in the hyporheic zone. Sci Total Environ 642:742–753CrossRef

Haddaway NR, Hedlund K, Jackson LE et al (2015) What are the effects of agricultural management on soil organic carbon in boreo-temperate systems? Environ Evid 4:23CrossRef

Hamidov A, Helming K, Bellocchi G et al (2018) Impacts of climate change adaptation options on soil functions: a review of European case-studies. Land Degrad Dev 29(8):2378–2389CrossRef

He Y, Li G, Xi B et al (2022) Fine root plasticity of young Populus tomentosa plantations under drip irrigation and nitrogen fixation in the North China Plain. Agric Water Manag 261

Hermans SM, Buckley HL, Case BS, Curran-Cournane F, Taylor M, Lear G (2020) Using soil bacterial communities to predict physico-chemical variables and soil quality. Microbiome 8:79CrossRef

Hossain A, Krupnik TJ, Timsina J et al (2020) Agricultural land degradation: processes and problems undermining future food security. Environ Climate Plant Veg Growth:17–61

Huera-Lucero T, Labrador-Moreno J, Blanco-Salas J et al (2020) A framework to incorporate biological soil quality indicators into assessing the sustainability of territories in the Ecuadorian Amazon. Sustainability 12(7):3007CrossRef

Indoria AK, Sharma KL, Reddy KS (2020) Climate change and soil interactions. ScienceDirect:473–508

IPBES (2019) In: Brondízio ES, Settele J, Díaz S, Ngo HT (eds) Global assessment Report of the Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services. IPBES secretariat, Bonn, p 1144

Ipingbemi O (2009) Socio-economic implications and environmental effects of oil spillage in some communities in the Niger Delta. J Integr Environ Sci 6:7–23CrossRef

Irmal S, Sharma V, Mohammed AT et al (2018) Impacts of cover crops on soil physical properties: field capacity, permanent wilting point, soil-water holding capacity, bulk density, hydraulic conductivity and infiltration. Am Soc Agric Biol Eng 6(4):1307–1321

Isobe K, Bouskill NJ, Brodie EL, Sudderth EA, Martiny JBH (2020) Phylogenetic conservation of soil bacterial responses to simulated global changes. Philos Trans R Soc Lond - Ser B: Biol Sci 375:20190242CrossRef

Izah SC, Aigberua AO (2017) Assessment of microbial quality of cassava mill effluents contaminated soil in a rural community in the Niger delta, Nigeria. EC Microbiol 13:132–140

Izah SC, Angaye TC, Ohimain EI (2016) Environmental impacts of oil palm processing in Nigeria. Biotechnol Res 2(3):132–141

Izah SC, Bassey SE, Ohimain EI (2017) Assessment of heavy metal in cassava mill effluent contaminated soil in a rural community in the Niger Delta region of Nigeria. EC Pharmacol Toxicol 4:186–201

Izah SC, Bassey SE, Ohimain EI (2018) Impacts of Cassava mill effluents in Nigeria. J Plant Anim Ecol 1:14–42CrossRef

Jaihoon R (2019) A review paper on climate change and its impact on soil. Jaihoon Rafie J Eng Res Appl 9(2):2248–9622

Jee LF, Hua L, Yung SL et al (2017) Microbiome engineering: current application and its future. Biotechnol J 12(3)

Joutey NT, Bahafid W, Sayel H et al (2013) Biodegradation: involved microorganisms and genetically engineered microorganism

Khanum TA, Mehmood N, Khatoon N (2021) Nematodes as biological indicators of soil quality in the agroecosystems

Koreň M, Slančík M, Suchomel J et al (2015) Use of terrestrial laser scanning to evaluate the spatial distribution of sol disturbance by skidding operations. IForest 8:386–393CrossRef

Kremer RJ (2017) Biotechnology impacts on soil and environmental services. Soil Health an Intensification of Agroecosystems, pp 353–375

Krüger I, Chartin C, van Wesemael B et al (2018) Defining a reference system for biological indicators of agricultural soil quality in Wallonia, Belgium. Ecol Indic 95:568–578CrossRef

Kumar A (2020) Inorganic soil contaminants and their biological remediation. Plant Responses to Soil Pollution 978-981-15-4963-2

Kuramae EE, Yergeau E, Wong LC (2012) Soil characteristics more strongly influence soil bacterial communities than land-use type. FEMS Microbiol Ecol 79(1):12–24CrossRef

Kuzyakov Y, Blagodatskaya E (2015) Microbial hotspots and hot moments in soil: concept & review. Soil Biol Biochem 83:184–199CrossRef

Lahlali R, Ibrahim DSS, Belabess Z et al (2021) High-throughput molecular technologies for unraveling the mystery of soil microbial community: challenges and future prospects. Heliyon 7(10):e08142. ISSN 2405-8440CrossRef

Lal R (2001) World cropland soils as a source or sink for atmospheric carbon

Lehmann J, Bossio DA, Kögel-Knabner I et al (2020) The concept and future prospects of soil health. Nat Rev Earth Environ 1:544–553CrossRef

Leite MFA, van den Broek SWEB, Kuramae EE (2022) Current challenges and pitfalls in soil metagenomics. Microorganisms 10:1900CrossRef

Li G, Sun GX, Ren Y et al (2018) Urban soil and human health: a review. Eur J Soil Sci 69:196–215CrossRef

Li Y, Wang C, Ge L et al (2022) Environmental behaviors of Bacillus thuringiensis (Bt) insecticidal proteins and their effects on microbial ecology. Plants 11(9):1212CrossRef

Liu Y, Duan M, Yu Z (2013) Agricultural landscapes and biodiversity in China. Agric Ecosyst Environ 166:46–54CrossRef

Loganathan M, Navendrian JN (2014) Characterization of soil quality indicators: a study. J Global Biosci 3(2):586–592

Luo Y, Zhou X (2006) Soil and respiration environment. Academic Press, San Diego

Mobilian C, Craft CB (2021) Wetland soils: physical and chemical properties and biogeochemical processes. Science Direct 3:157–168

Nannipieri P (1994) The potential use of soil enzymes as indicators of productivity, sustainability and pollution. In: Pankhurts CE, Doube BM, Gupta BM, Grace PR (eds) Soil biota: management in sustainable farming. CSIRO, Melbourne, pp 238–244

Nannipieri P, Giagnoni L, Renella G et al (2012) Soil enzymology: classical and molecular approaches. Biol Fertil Soils 48:743–762CrossRef

Nath A J., Bhattacharyya T, & Ray, S K (2014). Assessment of rice farming management practices based on soil organic carbon pool analysis.

Nielsen MN, Winding, Binnerup S (2002) Microorganisms as indicators of soil health

Okwute LO, Isu NR (2007) The environmental impact of palm oil mill effluent (pome) on some physico-chemical parameters and total aerobic bioload of soil at a dump site in Anyigba, Kogi State, Nigeria. Afr J Agric Res 2(12):656–662

Onwuka B, Mang B (2018) Effects of soil temperature on some soil properties and plant growth. Adv Plants Agric Res 8(1):34–37

Oshunsanya S (2019) Introductory chapter: relevance of soil pH to agriculture

Pileggi M, Pileggi SA, Sadowsky MJ (2020) Herbicide bioremediation: from strains to bacterial communities. Heliyon 6(12):e05767CrossRef

Posthumus H, Deeks L, Rickson R et al (2015) Costs and benefits of erosion control measures in the UK. Soil Use Manag 31:16–33CrossRef

Prajapati K, Modi HA (2012) The importance of potassium in plant growth–a review. Indian J Plant Sci 1(02-03):177–186

Prasad R, Chakraborty D (2019) Phosphorous basics: understanding phosphorous forms and their cycling in the soil. Crop Prod

Rajakaruna, Boyd RS (2008) Edaphic factor. Encycl Ecol 3:1201–1207

Raj S, Vijayan K K, Alavandi S V, Balasubramanian C P, & Santiago T C (2012). Effect of temperature and salinity on the infectivity pattern of white spot syndrome virus (WSSV) in giant tiger shrimp Penaeus monodon (Fabricius, 1837).

Rath KM, Rousk J (2015) Salt effects on the soil microbial decomposer community and their role in organic carbon cycling: a review. Soil Biol Biochem 81:108–123CrossRef

Rattan L (2020) Soil organic matter content and crop yield. J Soil Water Conserv 75(2):27A–32ACrossRef

Riaz M, Arif MS, Ashraf MA et al (2019) A comprehensive review on rice responses and tolerance to salt stress. In: Hasanuzzaman M, Fujita M et al (eds) Advances in rice research for abiotic stress tolerance. Woodhead Publishing, pp 133–158CrossRef

Rolf D (2005) The metagenomics of soil. Nat Rev Microbiol 3(6):470–478CrossRef

Ronald SJ (2008) Site selection and climate. Wine Science, pp 239–269

Rust N, Lunder OE, Iversen S et al (2022) Perceived causes and solutions to soil degradation in the UK and Norway. Land 11(1):131CrossRef

Sahab S, Suhani I, Srivastava V et al (2021) Potential risk assessment of soil salinity to agroecosystem sustainability: current status and management strategies. Sci Total Environ 764:144164CrossRef

Saleem M, Hu J, Jousset A (2019) More than the sum of its parts: microbiome biodiversity as a driver of plant growth and soil health. Annu Rev Ecol Evol Syst 50:145–168CrossRef

Salem HM, Abdel-Salam A, Abdel-Salam MA et al (2017) Soil xenobiotics and their phytochemical remediation. In: Hashmi M, Kumar V, Varma A (eds) Xenobiotics in the soil environment, soil biology, vol 49, pp 267–280

Santini NS, Chamizo S, Lucas Borja ME et al (2022) Restoration of degraded terrestrial ecosystems. Front Ecol Evol 10:863845CrossRef

Saxena G, Marzinelli EM, Naing NN et al (2015) Ecogenomics reveals metals and land-use pressures on microbial communities in the waterways of a megacity. Environ Sci Technol 49:1462CrossRef

Seiyaboh EI, Izah SC (2019) Impacts of soil pollution on air quality under Nigerian setting. J Soil Water Sci 3(1):45–53

Sharma V, Rudnick DR, Irmak S (2013) Development and evaluation of ordinary least squares regression models for predicting irrigated and rainfed maize and soybean yields. T. ASABE 56:1361–1378

Shinde R, Sakar PK, Thombare N (2019) Soil conditioners. Agric Food 1(10)

Shrestha P, Bellitürk K, Görres JH (2019) Phytoremediation of heavy metal-contaminated soil by switchgrass: a comparative study utilizing different composts and coir fiber on pollution remediation, plant productivity and nutrient leaching. Int J Environ Res Public Health 16:1261CrossRef

Shrinivas N, Padmaja P, Suryawanshi et al (2019) Soil metagenomics: concepts and applications

Sipos R, Székely A, Révész S et al (2010) Addressing PCR biases in environmental microbiology studies. In: Bioremediation. Humana Press, pp 37–58CrossRef

Stivers L (2017) Introduction to soils: soil quality. Pennsylvania State University. Introduction to Soils: Soil Quality (psu.edu)

Surya J N, Vikas T, Yadav, R P, Singh D, Katiyar D K, Nagdev R, & Singh S K (2018). Land Resource Inventory and Characterization for Planning Soil Conservation Measures in Aravalli Hill Slopes.

Tahat MM, Kholoud M, Alananbeh YA et al (2020) Soil health and sustainable agriculture. Sustainability 12:48–59CrossRef

Talbot B, Rahlf J, Astrup R (2018) An operational UAV-based approach for stand-level assessment of soil disturbance after forest harvesting. Scand J For Res 33(4):387–396CrossRef

Terashima M, Mihara M (2020) Interaction among soil physical, chemical and biological properties under different farming systems. Int J Environ Rural Dev 13(1)

Thakur N, Sharma R (2019) Soil quality. Int J Curr Microbiol Appl Sci 8(7):2319–7706

Thies JE (2007) Molecular methods for studying soil ecology. In: Soil microbiology, ecology and biochemistry. Academic Press, pp 85–118CrossRef

Tibbett M, Fraser TD, Duddigan S (2020) Identifying potential threats to soil biodiversity. PeerJ 8:9271CrossRef

USDA, United States Department of Agriculture (2014) soil health-infiltration

Vieira A, Moura M, Silva L (2021) Metagenomics in grasslands and forests-a review and bibliometric analysis. Appl Soil Ecol 167

Vilkiene M, Mockeviciene I, Karcauskiene D et al (2021) Biological indicators of soil quality under different tillage systems in retisol. Sustainability 13(17):9624CrossRef

Vinhal-Freitas IC, Corrêa GF, Wendling et al (2017) Soil textural class plays a major role in evaluating the effects of land use on soil quality indicators. Ecol Indic 74:182–190CrossRef

Withers E, Hill PW, Chadwick DR et al (2020) Use of untargeted metabolomics for assessing soil quality and microbial function. Soil Biol Biochem 143:107758CrossRef

Wu P, Wang Z, Bhatnagar A et al (2021) Microorganisms-carbonaceous materials immobilized complexes: synthesis, adaptability and environmental applications. J Hazard Mater 416:125915CrossRef

Yang J, Zang L (2011) Water infiltration in urban soils and its effects on the quantity and quality of runoff. J Soils Sediments 11:751–761CrossRef

Yousfi S, Marín J, Parra L et al (2021) A rhizogenic biostimulant effect on soil fertility and roots growth of turfgrass. Agronomy 11:573CrossRef

Yu H, Kong B, Wang Q et al (2020) Hyper remote sensing application in soil: a review. Science Direct:269–291

Zhang W, Wang C, Xue R et al (2019) Effects of salinity on the soil microbial community and soil fertility. J Integr Agric 18(6):1360–1368CrossRef

Zhang Y, Hartemink AE, Huang J et al (2021) Digital soil morphometrics. Reference module in earth systems and environmental sciences

Zong Y, Lu S (2019) Does long-term inorganic and organic fertilization affect soil structural and mechanical physical quality of paddy soil? Arch Agron Soil Sci

Titel: Exploring Biotechnological Strategies in the Monitoring of Soil Quality
verfasst von: Linda U. Obi
Frances N. Olisaka
Christabel Ene
Uchenna Aniakor
Verlag: Springer Nature Switzerland
Buch: The Marginal Soils of Africa
Print ISBN: 978-3-031-55184-0

Electronic ISBN: 978-3-031-55185-7

Copyright-Jahr: 2024
DOI: https://doi.org/10.1007/978-3-031-55185-7_10