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References
|
Ahmad W, Alharthy RD, Zubair M, Ahmed M, Hameed A, Rafique S (2021). Toxic and heavy metals contamination assessment in soil and water to evaluate human health risk. Scientific Reports 11(1):1-12. |
|
|
Al Mamun S, Saha S, Ferdush J, Tusher TR, Islam MS (2022). Organic amendments for crop production, phosphorus bioavailability and heavy metal immobilisation: A review. Crop and Pasture Science 73(7-8):896-916. |
|
|
Alloway BJ (2013). Heavy metals in soils: Trace metals and metalloids in soils and their bioavailability. Springer Science and Business Media Vol. 22. View |
|
|
Ankush R, Lamba S, Deepika, Prakash R (2024). Cadmium in environment-An overview. Cadmium Toxicity in Water: Challenges and Solutions pp. 3-20. Available at: |
|
|
Arrakhais AB, Hamit A, Fontaine C, Abdelfadel F, Dinar M, Razack M (2024). Groundwater dynamics in African endorheic basins in arid to semi-arid transition zones: The Batha Aquifer System, NE Chad. Water 16(14):2067. |
|
|
Arshad MA, Martin S (2002). Identifying critical limits for soil quality indicators in agro-ecosystems. Agriculture, Ecosystems and Environment 88(2):153-160. |
|
|
Basak N, Rai AK, Barman A, Mandal S, Sundha P, Bedwal S, Sharma PC (2022). Salt affected soils: Global perspectives. In Soil health and environmental sustainability: Application of geospatial technology. Cham: Springer International Publishing pp. 107-129. |
|
|
Bashir O, Ali T, Baba ZA, Rather GH, Bangroo SA, Mukhtar SD, Bhat RA (2021). Soil organic matter and its impact on soil properties and nutrient status. Microbiota and biofertilizers, Ecofriendly tools for reclamation of degraded soil environs. Cham: Springer International Publishing 2:129-159. |
|
|
Bationo A, Waswa B, Kihara J, Kimetu J (2007). Advances in integrated soil fertility management in sub Saharan Africa: challenges and opportunities. Nutrient Cycling in Agroecosystems 2007(2):1-2. |
|
|
Bethony J, Brooker S, Albonico M, Geiger SM, Loukas A, Diemert D, Hotez PJ (2006). Soil-transmitted helminth infections: ascariasis, trichuriasis, and hookworm. The Lancet 367(9521):1521-1532. |
|
|
Bjorneberg DL, Evans RG, Sadler EJ (2017). Irrigation management. Precision Conservation: Geospatial Techniques for Agricultural and Natural Resources Conservation 59:193-208. |
|
|
Blake GR, Hartge KH (1986) Bulk density. Methods of soil analysis: Part 1 Physical and mineralogical methods 5:363-375. |
|
|
Bollmann-Giolai A, Malone JG, Arora S (2022). Diversity, detection and exploitation: Linking soil fungi and plant disease. Current Opinion in Microbiology 70:102199. |
|
|
Brevik EC, Slaughter L, Singh BR, Steffan JJ, Collier D, Barnhart P, Pereira P (2020). Soil and Human Health: Current Status and Future Needs. Air, Soil and Water Research 13:1178622120934441. |
|
|
Brooker RW (2006). Plant-plant interactions and environmental change. New Phytologist 171(2):271-284. |
|
|
Brunn A, Kadri-Alabi Z, Moodley A, Guardabassi L, Taylor P, Mateus A, Waage J (2022). Characteristics and global occurrence of human pathogens harboring antimicrobial resistance in food crops: a scoping review. Frontiers in Sustainable Food Systems 6:824714. |
|
|
Carrillo?González R, Šim?nek J, Sauvé S, Adriano D (2006). Mechanisms and pathways of trace element mobility in soils. Advances in agronomy 91:111-178. |
|
|
Chadha A, Florentine SK, Chauhan BS, Long B, Jayasundera M (2019). Influence of soil moisture regimes on growth, photosynthetic capacity, leaf biochemistry and reproductive capabilities of the invasive agronomic weed; Lactuca serriola. PloS one 14(6):e0218191. |
|
|
Charkiewicz AE, Omeljaniuk WJ, Nowak K, Garley M, Nikli?ski J (2022). Cadmium Toxicity and Health Effects-A Brief Summary. Molecules 28(18):6620. |
|
|
Cheesbrough M (2006). District Laboratory Practice in Tropical Countries, Part 2. Cambridge University Press, Cambridge. |
|
|
Chen J, Gong Y, Chen Q, Li S, Zhou Y (2024). Global burden of soil-transmitted helminth infections, 1990-2021. Infectious Diseases of Poverty 13(05):68-77. |
|
|
Chen L, Wang J, Beiyuan J, Guo X, Wu H, Fang L (2022). Environmental and health risk assessment of potentially toxic trace elements in soils near uranium (U) mines: A global meta-analysis. Science of the Total Environment 816:151556. |
|
|
Corwin DL, Scudiero E (2020). Field?scale apparent soil electrical conductivity. Soil Science Society of America Journal 84(5):1405-1441. |
|
|
Cui Q, Zhang Z, Beiyuan J, Cui Y, Chen L, Chen H, Fang L (2023). A critical review of uranium in the soil-plant system: Distribution, bioavailability, toxicity, and bioremediation strategies. Critical Reviews in Environmental Science and Technology 53(3):340-365. |
|
|
Delgado A, Gómez JA (2024). The soil: Physical, chemical, and biological properties. In Principles of agronomy for sustainable agriculture. Cham: Springer International Publishing. pp 15-30. |
|
|
Doran JW, Parkin TB (1997). Quantitative indicators of soil quality: a minimum data set. Methods for assessing soil quality 49:25-37. |
|
|
Dutta A, Banerjee M, Ray R (2024). Land capability assessment of Sali watershed for agricultural suitability using a multi-criteria-based decision-making. Environmental Monitoring and Assessment 196(3):237. |
|
|
Economou-Eliopoulos M, Megremi I (2021). Contamination of the soil-groundwater-crop system: Environmental risk and opportunities. Minerals 11(7):775. |
|
|
Ezekiel CN, Sulyok M, Somorin Y, Odutayo FI, Nwabekee SU, Balogun AT, Krska R (2016). Mould and mycotoxin exposure assessment of melon and bush mango seeds, two common soup thickeners consumed in Nigeria. International Journal of Food Microbiology 237:83-91. |
|
|
Food and Agriculture Organization (FAO) (2017). Voluntary guidelines for sustainable soil management. Food and Agriculture Organization of the United Nations. Rome, Italy, 26. |
|
|
Fesenko SV, Emlutina ES (2021). Thorium concentrations in the environment: A review of the global data. Biology Bulletin 48(11):2086-2097. |
|
|
Gan Y, Huang X, Li S, Liu N, Li YC, Freidenreich A, Dai J (2019). Source quantification and potential risk of mercury, cadmium, arsenic, lead, and chromium in farmland soils of Yellow River Delta. Journal of cleaner production 221:98-107. |
|
|
Gee GW, Bauder JW (1986). Particle?size analysis. Methods of soil analysis: Part 1 Physical and mineralogical methods 5:383-411. |
|
|
Ghosh A, Singh AK, Kumar S, Manna MC, Jha P, Bhattacharyya R, Sannagoudar MS, Singh R, Chaudhari SK, Kumar R (2021). Do moisture conservation practices influence stability of soil organic carbon and structure? Catena 199:105127. |
|
|
Hamid Y, Tang L, Hussain B, Usman M, Lin Q, Rashid MS, Yang X (2020). Organic soil additives for the remediation of cadmium contaminated soils and their impact on the soil-plant system: A review. Science of The Total Environment 707:136121. |
|
|
Hamza MA, Anderson WK (2005). Soil compaction in cropping systems: A review of the nature, causes and possible solutions. Soil and tillage research 82(2):121-145. |
|
|
Harrigan WF, McCance ME (2014). Laboratory Methods in Microbiology. Academic Press, London. |
|
|
Hazelton P, Murphy B (2025). Interpreting soil test results: What do all the numbers mean?. Csiro Publishing, Amazon.com pp. 11-38 |
|
|
Henneron L, Kardol P, Wardle DA, Cros C, Fontaine S (2020). Rhizosphere control of soil nitrogen cycling: a key component of plant economic strategies. New Phytologist 228(4):1269-1282. |
|
|
Hillel DI (2004). Introduction to environmental soil physics (No. 18317). Elsevier; Academic Press. pp 3-337. |
|
|
Hotez PJ, Alvarado M, Basáñez MG, Bolliger I, Bourne R, Boussinesq M, Naghavi M (2014). The global burden of disease study 2010: interpretation and implications for the neglected tropical diseases. PLoS Neglected Tropical Diseases 8(7):e2865. |
|
|
Hotez PJ, Brindley PJ, Bethony JM, King CH, Pearce EJ, Jacobson J (2008). Helminth infections: the great neglected tropical diseases. The Journal of Clinical Investigation 118(4):1311-1321. |
|
|
Karshima SN (2018). Prevalence and distribution of soil-transmitted helminth infections in Nigerian children: a systematic review and meta-analysis. Infectious diseases of poverty 7(04):1-14. |
|
|
Lal R (2015a). A system approach to conservation agriculture. Journal of Soil and Water Conservation 70(4):82A-88A. |
|
|
Lal R (2015b). Restoring soil quality to mitigate soil degradation. Sustainability 7(5):5875-5895. |
|
|
Lal R (2020). Soil organic matter and water retention. Agronomy Journal 112(5):3265-3277. |
|
|
Leslie JF, Summerell BA (2008). The Fusarium laboratory manual. Blackwell Publishing. Hoboken, NJ, USA. |
|
|
Liu L, Li W, Song W, Guo M (2018). Remediation techniques for heavy metal-contaminated soils: Principles and applicability. Science of the total environment 633:206-219. |
|
|
Majeed A, Muhammad Z (2019). Salinity: a major agricultural problem-causes, impacts on crop productivity and management strategies. Plant abiotic stress tolerance: Agronomic, molecular and biotechnological approaches 83-99. |
|
|
Mango N, Siziba S, Makate C (2017). The impact of adoption of conservation agriculture on smallholder farmers' food security in semi-arid zones of southern Africa. Agriculture and Food Security 6(1):32. |
|
|
Masso C, Nziguheba G, Mutegi J, Galy-Lacaux C, Wendt J, Butterbach-Bahl K, Datta A (2017). Soil fertility management in sub-Saharan Africa. In Sustainable agriculture reviews. Cham: Springer International Publishing pp. 205-231. |
|
|
Maurya S, Abraham JS, Somasundaram S, Toteja R, Gupta R, Makhija S (2020). Indicators for assessment of soil quality: a mini-review. Environmental Monitoring and Assessment 192(9):604. |
|
|
Mishra S, Bharagava RN, More N, Yadav A, Zainith S, Mani S, Chowdhary P (2018). Heavy metal contamination: an alarming threat to environment and human health. In Environmental biotechnology: For sustainable future. Singapore: Springer Singapore pp. 103-125. |
|
|
Msimbira LA, Smith DL (2020). The roles of plant growth promoting microbes in enhancing plant tolerance to acidity and alkalinity stresses. Frontiers in Sustainable Food Systems 4:106. |
|
|
Munson RD (2018). Soil fertility, fertilizers, and plant nutrition. In Handbook of soils and climate in agriculture. CRC Press. pp. 269-294. |
|
|
Muoghalu LN, Akanwa AO (2021). Ecological Intensification for Sustainable Agriculture: The Nigerian Perspective. Ecological Intensification of Natural Resources for Sustainable Agriculture, Springer Singapore. pp. 521-564. Available at: Crossref |
|
|
Nannipieri P, Ascher J, Ceccherini MT, Landi L, Pietramellara G, Renella G (2017). Microbial diversity and soil functions. European Journal of Soil Science, 68(1): 12-26. Available at: |
|
|
Neina D (2019). The role of soil pH in plant nutrition and soil remediation. Applied and environmental soil science 2019(1):5794869. |
|
|
Nieder R, Benbi DK, Reichl FX (2018). Soil as a transmitter of human pathogens. In Soil components and human health (pp. 723-827). Dordrecht: Springer Netherlands. Available at: https://doi.org/10.1007/978-94-024-1222-2_13 |
|
|
Okonko IO, Adejoye OD, Ogunjobi AA, Ogunjobi OM, Nkang AO, Adebayo-Tayo BC (2009). Hazards analysis critical control points (HACCP) and microbiology qualities of food prepared by food vendors in Nigeria. African Journal of Food Science 3(1):22-33. |
|
|
Oluyide SO, Tchokossa P, Akinyose FC, Orosun MM (2019). Assessment of radioactivity levels and transfer factor of natural radionuclides around iron and steel smelting company located in Fashina village, Ile-ife, Osun state, Nigeria. Facta Universitatis, series: working and living environmental protection 241-256. Available at: |
|
|
Peel MC, McMahon TA (2020). Historical development of rainfall?runoff modeling. Wiley Interdisciplinary Reviews: Water 7(5):e1471. |
|
|
Pennock D, Yates T, Braidek J (2006). Soil Sampling Design. In: Carter, M.R. and Gregorich, E.G., Eds., Soil Sampling and Methods of Analysis, 2nd Edition, Taylor and Francis Group LLC, London. Available at: https://doi.org/10.1201/9781420005271 |
|
|
Poonam N, Kumar N (2019). Natural and Artificial Soil Amendments for the Efficient Phytoremediation of Contaminated Soil. In: Arora N, Kumar N (Eds.), Phyto and Rhizo Remediation. Microorganisms for Sustainability, Vol 9. Springer, Singapore. pp 1-32 Available at: |
|
|
Qadir M, Quillérou E, Nangia V, Murtaza G, Singh M, Thomas RJ, Noble AD (2014). Economics of salt-induced land degradation and restoration. Natural Resources Forum 38(4):282-295. |
|
|
Raghavendra M, Sharma MP, Ramesh A, Richa A, Billore SD, Verma RK (2020). Soil health indicators: Methods and applications. Soil Analysis: Recent Trends and Applications, 221-253. Available at: |
|
|
Rashid A, Schutte BJ, Ulery A, Deyholos MK, Sanogo S, Lehnhoff EA, Beck L (2023). Heavy metal contamination in agricultural soil: environmental pollutants affecting crop health. Agronomy 13(6):1521. |
|
|
Rengasamy P (2010). Soil processes affecting crop production in salt-affected soils. Functional Plant Biology, 37(7):613-620. |
|
|
Riaz MU, Ayub MA, Khalid H, ul Haq MA, Rasul A, ur Rehman MZ, Ali S (2020). Fate of micronutrients in alkaline soils. Resources Use Efficiency in Agriculture pp 577-613. Available at: https://doi.org/10.1007/978-981-15-6953-1_16 |
|
|
Riaz U, Aslam A, Javeid S, Gul R, Iqbal S, Javid S, Jamil M (2021). Cadmium contamination, bioavailability, uptake mechanism and remediation strategies in soil-plant-environment system: a critical review. Current Analytical Chemistry 17(1):49-60. |
|
|
Rinot O, Levy GJ, Steinberger Y, Svoray T, Eshel G (2019). Soil health assessment: A critical review of current methodologies and a proposed new approach. Science of the Total Environment 648:1484-1491. |
|
|
Sabreena S, Hassan S, Bhat SA, Kumar V, Ganai BA, Ameen F (2022). Phytoremediation of heavy metals: an indispensable contrivance in green remediation technology. Plants 11(9):1255. |
|
|
Sahil, Mahajan G, Loura D, Raymont K, Chauhan BS (2020). Influence of soil moisture levels on the growth and reproductive behaviour of Avena fatua and Avena ludoviciana. PLoS One 15(7):e0234648. |
|
|
Sanchez PA (2019). Properties and management of soils in the tropics (2nd ed.). Cambridge University Press. Available at: |
|
|
Sarwar N, Imran M, Shaheen MR, Ishaque W, Kamran MA, Matloob A, Hussain S (2017). Phytoremediation strategies for soils contaminated with heavy metals: modifications and future perspectives. Chemosphere 171:710-721. |
|
|
Seybold CA, Mansbach MJ, Karlen DL, Rogers HH (2018). Quantification of soil quality. In Soil processes and the carbon cycle. CRC Press. pp 387-404. |
|
|
Shah AN, Tanveer M, Shahzad B, Yang G, Fahad S, Ali S, Souliyanonh B (2017). Soil compaction effects on soil health and cropproductivity: an overview. Environmental Science and Pollution Research 24(11):10056-10067. |
|
|
Shahbaz M, Kuzyakov Y, Heitkamp F (2017). Decrease of soil organic matter stabilization with increasing inputs: mechanisms and controls. Geoderma 304:76-82. |
|
|
Shaygan M, Baumgartl T (2022). Reclamation of Salt-Affected Land: A Review. Soil Systems 6(3):61. |
|
|
Shukla MK (2023). Soil physics: An introduction. CRC press. CRC Press. Available at: https://doi.org/10.1201/9780429264849 |
|
|
Singh A (2021). Soil salinization management for sustainable development: A review. Journal of environmental management 277:111383. |
|
|
Schweizer SA, Bucka FB, Graf-Rosenfellner M, Kögel-Knabner I (2019). Soil microaggregate size composition and organic matter distribution as affected by clay content. Geoderma 355:113901. |
|
|
Tchokossa P, Olomo JB, Balogun FA, Adesanmi CA (2013). Radiological study of soils in oil and gas producing areas in Delta State, Nigeria. Radiation protection dosimetry 153(1):121-126. |
|
|
Thomas GW (1996). Soil pH and soil acidity. Methods of soil analysis: part 3 Chemical Methods 5:475-490. Available at: |
|
|
United States Environmental Protection Agency (USEPA) (1996). Method 3050B: Acid Digestion of Sediments, Sludges, and Soils. U.S. Environmental Protection Agency, Washington, DC. |
|
|
Usharani K, Roopashree KM, Naik D (2019). Role of soil physical, chemical and biological properties for soil health improvement and sustainable agriculture. Journal of Pharmacognosy and Phytochemistry 8(5):1256-1267. |
|
|
Vereecken H, Amelung W, Bauke SL, Bogena H, Brüggemann N, Montzka C, Zhang Y (2022). Soil hydrology in the Earth system. Nature Reviews Earth and Environment 3(9):573-587. |
|
|
Webster R (2001). Statistics to support soil research and their presentation. European Journal of Soil Science 52(2):331-340. |
|
|
Wenning RJ (2024). Case Study-Screening Level Ecological Risk Assessment of Residual Soil Contamination at a Former Munitions Disposal Landfill. Human and Ecological Risk Assessment: Theory and Practice 2:897-916. |
|
|
Wooliver R, Pellegrini AF, Waring B, Houlton BZ, Averill C, Schimel J, Schweitzer JA (2019). Changing perspectives on terrestrial nitrogen cycling: The importance of weathering and evolved resource?use traits for understanding ecosystem responses to global change. Functional Ecology 33(10):1818-1829. |
|
|
Yahaya II, Wang Y, Zhang Z, Inuwa AY, Zhao Y, You Y, Shoukat W (2024). Assessing desertification vulnerability and mitigation strategies in northern Nigeria: A comprehensive approach. Heliyon 10(11). |
|
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