Organic amendment-mediated reclamation and build-up of soil microbial diversity in salt-affected soils: fostering soil biota for shaping rhizosphere to enhance soil health and crop productivity.

التفاصيل البيبلوغرافية
العنوان:	Organic amendment-mediated reclamation and build-up of soil microbial diversity in salt-affected soils: fostering soil biota for shaping rhizosphere to enhance soil health and crop productivity.
المؤلفون:	Farooqi ZUR; Institute of Soil and Environmental Sciences, University of Agriculture Faisalabad, Faisalabad, 38040, Pakistan. ziaa2600@gmail.com., Qadir AA; Institute of Soil and Environmental Sciences, University of Agriculture Faisalabad, Faisalabad, 38040, Pakistan., Alserae H; Department of Soil Sciences and Water Resources, College of Agricultural Engineering Science, Baghdad University, Baghdad, Iraq., Raza A; Institute of Soil and Environmental Sciences, University of Agriculture Faisalabad, Faisalabad, 38040, Pakistan., Mohy-Ud-Din W; Institute of Soil and Environmental Sciences, University of Agriculture Faisalabad, Faisalabad, 38040, Pakistan.; Department of Soil and Environmental Sciences, Ghazi University, Dera Ghazi Khan, 32200, Pakistan.
المصدر:	Environmental science and pollution research international [Environ Sci Pollut Res Int] 2023 Nov; Vol. 30 (51), pp. 109889-109920. Date of Electronic Publication: 2023 Oct 04.
نوع المنشور:	Journal Article; Review
اللغة:	English
بيانات الدورية:	Publisher: Springer Country of Publication: Germany NLM ID: 9441769 Publication Model: Print-Electronic Cited Medium: Internet ISSN: 1614-7499 (Electronic) Linking ISSN: 09441344 NLM ISO Abbreviation: Environ Sci Pollut Res Int Subsets: MEDLINE
أسماء مطبوعة:	Publication: <2013->: Berlin : Springer Original Publication: Landsberg, Germany : Ecomed
مواضيع طبية MeSH:	Soil/chemistry , Rhizosphere, Ecosystem ; Soil Microbiology ; Biota ; Carbon ; Sodium Chloride ; Sodium Chloride, Dietary
مستخلص:	Soil salinization is a serious environmental problem that affects agricultural productivity and sustainability worldwide. Organic amendments have been considered a practical approach for reclaiming salt-affected soils. In addition to improving soil physical and chemical properties, organic amendments have been found to promote the build-up of new halotolerant bacterial species and microbial diversity, which plays a critical role in maintaining soil health, carbon dynamics, crop productivity, and ecosystem functioning. Many reported studies have indicated the development of soil microbial diversity in organic amendments amended soil. But they have reported only the development of microbial diversity and their identification. This review article provides a comprehensive summary of the current knowledge on the use of different organic amendments for the reclamation of salt-affected soils, focusing on their effects on soil properties, microbial processes and species, development of soil microbial diversity, and microbial processes to tolerate salinity levels and their strategies to cope with it. It also discusses the factors affecting the microbial species developments, adaptation and survival, and carbon dynamics. This review is based on the concept of whether addition of specific organic amendment can promote specific halotolerant microbe species, and if it is, then which amendment is responsible for each microbial species' development and factors responsible for their survival in saline environments. (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)
References:	Abebe TG, Tamtam MR, Abebe AA, Abtemariam KA, Shigut TG, Dejen YA, Haile EG (2022) Growing use and impacts of chemical fertilizers and assessing alternative organic fertilizer sources in Ethiopia. Appl Environ Soil Sci 2022:1–14. Adekiya AO, Agbede TM, Ojeniyi SO (2016) The effect of three years of tillage and poultry manure application on soil and plant nutrient composition, growth and yield of cocoyam. Exp Agric 52:466–476. Afza U, Imran K, Chattha MU, Maqbool R, Chattha MB, Ambreen N, Hashem M, Alamri S, Alhaithloul HA, Hassan S (2022) Organic amendments mitigate salinity induced toxic effects in maize by modulating antioxidant defense system, photosynthetic pigments and ionic homeostasis. Notulae Botanicae Horti Agrobotanici Cluj-Napoca 50:12735–12735. Akcay K, Kaya Y (2019) Isolation, characterization and molecular identification of a halotolerant Bacillus megaterium CTBmeg1 able to grow on halogenated compounds. Biotechnol Biotechnol Equip 33:945–953. Alishahi F, Alikhani HA, Khoshkholgh-Sima NA, Etesami H (2020) Mining the roots of various species of the halophyte Suaeda for halotolerant nitrogen-fixing endophytic bacteria with the potential for promoting plant growth. Int Microbiol 23:415–427. Allam NG, Kinany R, El-Refai E-RM, Ali WY (2018) Potential use of beneficial salt tolerant bacteria for improving wheat productivity grown in salinized soil. J Microbiol Res 8:43–53. Amer MM, Hashem IM (2018) Impact of some soil amendments on properties and productivity of salt affected soils at Kafr El-Sheikh Governorate. Egypt J Soil Sci 58:177–191. Andrews EM, Kassama S, Smith EE, Brown PH, Khalsa SDS (2021) A review of potassium-rich crop residues used as organic matter amendments in tree crop agroecosystems. Agriculture 11:580. Angst G, Pokorný J, Mueller CW, Prater I, Preusser S, Kandeler E, Meador T, Straková P, Hájek T, van Buiten G (2021) Soil texture affects the coupling of litter decomposition and soil organic matter formation. Soil Biol Biochem 159:108302. Anonymous (2022) Soil Sci Soc Am J 86:1264–1279. Arora NK, Fatima T, Mishra J, Mishra I, Verma S, Verma R, Verma M, Bhattacharya A, Verma P, Mishra P (2020) Halo-tolerant plant growth promoting rhizobacteria for improving productivity and remediation of saline soils. J Adv Res 26:69–82. Arora S (2020) Halotolerant microbes for amelioration of salt-affected soils for sustainable agriculture. In: Phyto-Microbiome in Stress Regulation. Springer, pp 323–343. Ashraf MY, Hasnain S, Berge O (2006) Effect of exo-polysaccharides producing bacterial inoculation on growth of roots of wheat (Triticum aestivum L.) plants grown in a salt-affected soil. Int J Environ Sci Technol 3:43–51. Aslam F, Ali B (2018) Halotolerant bacterial diversity associated with Suaeda fruticosa (L.) forssk. improved growth of maize under salinity stress. Agronomy 8:131. Azeem M, Hale L, Montgomery J, Crowley D, McGiffen ME Jr (2020) Biochar and compost effects on soil microbial communities and nitrogen induced respiration in turfgrass soils. PLoS One 15:e0242209. Babar M, Saif ur R, Rasul S, Aslam K, Abbas R, Athar H-u-R, Manzoor I, Kashif Hanif M, Naqqash T (2021) Mining of halo-tolerant plant growth promoting rhizobacteria and their impact on wheat (Triticum aestivum L.) under saline conditions. J King Saud Univ Sci 33:101372. Baldi E, Toselli M, Masoero G, Nuti M (2020) Organic and symbiotic fertilization of tomato plants monitored by Litterbag-NIRS and Foliar-NIRS rapid spectroscopic methods. J Agronom Res 3:09. Bamdad H, Papari S, Lazarovits G, Berruti F (2022) Soil amendments for sustainable agriculture: microbial organic fertilizers. Soil Use Manag 38:94–120. Banerjee A, Sarkar S, Cuadros-Orellana S, Bandopadhyay R (2019) Exopolysaccharides and biofilms in mitigating salinity stress: the biotechnological potential of halophilic and soil-inhabiting PGPR microorganisms. In: Giri B, Varma A (eds) Microorganisms in saline environments: strategies and functions. Springer International Publishing, Cham, pp 133–153. Bardhan S, Jose S, Jenkins MA, Webster CR, Udawatta RP, Stehn SE (2012) Microbial community diversity and composition across a gradient of soil acidity in spruce–fir forests of the southern Appalachian Mountains. Appl Soil Ecol 61:60–68. Bargaz A, Nassar RMA, Rady MM, Gaballah MS, Thompson SM, Brestic M, Schmidhalter U, Abdelhamid MT (2016) Improved salinity tolerance by phosphorus fertilizer in two Phaseolus vulgaris recombinant inbred lines contrasting in their P-efficiency. J Agron Crop Sci 202:497–507. Bello SK, Alayafi AH, Al Solaimani SG, Abo-Elyousr KA (2021) Mitigating soil salinity stress with gypsum and bio-organic amendments: a review. Agronomy 11:1735. Ben-Laouane R, Baslam M, Ait-El-Mokhtar M, Anli M, Boutasknit A, Ait-Rahou Y, Toubali S, Mitsui T, Oufdou K, Wahbi S (2020) Potential of native arbuscular mycorrhizal fungi, rhizobia, and/or green compost as alfalfa (Medicago sativa) enhancers under salinity. Microorganisms 8:1695. Benaffari W, Boutasknit A, Anli M, Ait-El-Mokhtar M, Ait-Rahou Y, Ben-Laouane R, Ben Ahmed H, Mitsui T, Baslam M, Meddich A (2022) The native arbuscular mycorrhizal fungi and vermicompost-based organic amendments enhance soil fertility, growth performance, and the drought stress tolerance of quinoa. Plants 11:393. Bharti N, Barnawal D, Maji D, Kalra A (2015) Halotolerant PGPRs prevent major shifts in indigenous microbial community structure under salinity stress. Microb Ecol 70:196–208. Bharti N, Barnawal D, Wasnik K, Tewari SK, Kalra A (2016) Co-inoculation of Dietzia natronolimnaea and Glomus intraradices with vermicompost positively influences Ocimum basilicum growth and resident microbial community structure in salt affected low fertility soils. Appl Soil Ecol 100:211–225. Bian B, Hu X, Zhang S, Lv C, Yang Z, Yang W, Zhang L (2019) Pilot-scale composting of typical multiple agricultural wastes: parameter optimization and mechanisms. Bioresour Technol 287:121482. Bolinder MA, Crotty F, Elsen A, Frac M, Kismányoky T, Lipiec J, Tits M, Tóth Z, Kätterer T (2020) The effect of crop residues, cover crops, manures and nitrogen fertilization on soil organic carbon changes in agroecosystems: a synthesis of reviews. Mitig Adapt Strateg Glob Chang 25:929–952. Boyrahmadi M, Raiesi F (2018) Plant roots and species moderate the salinity effect on microbial respiration, biomass, and enzyme activities in a sandy clay soil. Biol Fertil Soils 54:509–521. Bucka FB, Kölbl A, Uteau D, Peth S, Kögel-Knabner I (2019) Organic matter input determines structure development and aggregate formation in artificial soils. Geoderma 354:113881. Camarotto C, Piccoli I, Dal Ferro N, Polese R, Chiarini F, Furlan L, Morari F (2020) Have we reached the turning point? Looking for evidence of SOC increase under conservation agriculture and cover crop practices. Eur J Soil Sci 71:1050–1063. Caporale AG, Adamo P, Azam S, Rao MA, Pigna M (2018) May humic acids or mineral fertilisation mitigate arsenic mobility and availability to carrot plants (Daucus carota L.) in a volcanic soil polluted by As from irrigation water? Chemosphere 193:464–471. Castiglione S, Oliva G, Vigliotta G, Novello G, Gamalero E, Lingua G, Cicatelli A, Guarino F (2021) Effects of compost amendment on glycophyte and halophyte crops grown on saline soils: isolation and characterization of rhizobacteria with plant growth promoting features and high salt resistance. Appl Sci 11:2125. Caulfield M, Groot JC, Fonte SJ, Sherwood S, Oyarzun P, Borja RM, Dumble S, Tittonell P (2020) Live barriers and associated organic amendments mitigate land degradation and improve crop productivity in hillside agricultural systems of the Ecuadorian Andes. Land Degrad Dev 31:1650–1661. Ceglie FG, Abdelrahman H (2014) Ecological Intensification through Nutrients Recycling and Composting in Organic Farming. Composting for Sustainable Agriculture, pp 1–22. Céspedes C, Espinoza S, Maass V (2022) Nitrogen transfer from legume green manure in a crop rotation to an onion crop using 15N natural abundance technique. Chilean J Agric Res 82:44–51. Chahal SS, Choudhary OP, Mavi MS (2017) Organic amendments decomposability influences microbial activity in saline soils. Arch Agron Soil Sci 63:1875–1888. Chakraborty K, Basak N, Bhaduri D, Ray S, Vijayan J, Chattopadhyay K, Sarkar RK (2018) Ionic basis of salt tolerance in plants: nutrient homeostasis and oxidative stress tolerance. Plant Nutrients Abiotic Stress Tolerance:325–362. Chen GC, He Z (2004) Effects of pH on Microbial Biomass -C and -P in Red Soils. Pedosphere 14:9–15. Chen J, Wang H, Hu G, Li X, Dong Y, Zhuge Y, He H, Zhang X (2021a) Distinct accumulation of bacterial and fungal residues along a salinity gradient in coastal salt-affected soils. Soil Biol Biochem 158:108266. Chen M, Zhang S, Liu L, Wu L, Ding X (2021b) Combined organic amendments and mineral fertilizer application increase rice yield by improving soil structure, P availability and root growth in saline-alkaline soil. Soil Tillage Res 212:105060. Chhabra R (2022) Salt-affected soils and marginal waters: global perspectives and sustainable management. Springer Nature. Choudhary M, Chandra P, Arora S (2019) Soil-plant-microbe interactions in salt-affected soils. In: Dagar JC, Yadav RK, Sharma PC (eds) Research developments in saline agriculture. Springer Singapore, Singapore, pp 203–235. Choukr-Allah R, Mouridi ZE, Benbessis Y, Shahid SA (2023) Salt-affected soils and their management in the Middle East and North Africa (MENA) region: a holistic approach. In: Choukr-Allah R, Ragab R (eds) Biosaline agriculture as a climate change adaptation for food security. Springer International Publishing, Cham, pp 13–45. Christodoulou E, Agapiou A, Anastopoulos I, Omirou M, Ioannides IM (2019) The effects of different soil nutrient management schemes in nitrogen cycling. J Environ Manag 243:168–176. Crystal-Ornelas R, Thapa R, Tully KL (2021) Soil organic carbon is affected by organic amendments, conservation tillage, and cover cropping in organic farming systems: a meta-analysis. Agric Ecosyst Environ 312:107356. Cuevas J, Daliakopoulos IN, del Moral F, Hueso JJ, Tsanis IK (2019) A review of soil-improving cropping systems for soil salinization. Agronomy 9(6):295. Cui Y, Fang L, Deng L, Guo X, Han F, Ju W, Wang X, Chen H, Tan W, Zhang X (2019) Patterns of soil microbial nutrient limitations and their roles in the variation of soil organic carbon across a precipitation gradient in an arid and semi-arid region. Sci Total Environ 658:1440–1451. Dahlawi S, Naeem A, Rengel Z, Naidu R (2018) Biochar application for the remediation of salt-affected soils: challenges and opportunities. Sci Total Environ 625:320–335. Datta A, Setia R, Barman A, Guo Y, Basak N (2019a): Carbon dynamics in salt-affected soils. Research developments in saline agriculture, 369-389. Datta R, Meena RS, Pathan SI, Ceccherini MT (2019b) Carbon and nitrogen cycling in soil. Springer. De Corato U (2020) Agricultural waste recycling in horticultural intensive farming systems by on-farm composting and compost-based tea application improves soil quality and plant health: A review under the perspective of a circular economy. Sci Total Environ 738:139840. de Nijs EA, Hicks LC, Leizeaga A, Tietema A, Rousk J (2019) Soil microbial moisture dependences and responses to drying–rewetting: the legacy of 18 years drought. Glob Chang Biol 25:1005–1015. Dhaliwal S, Naresh R, Mandal A, Singh R, Dhaliwal M (2019) Dynamics and transformations of micronutrients in agricultural soils as influenced by organic matter build-up: a review. Environ Sustain Indicators 1:100007. Diacono M, Montemurro F (2015) Effectiveness of organic wastes as fertilizers and amendments in salt-affected soils. Agriculture 5:221–230. Ding X, Chen S, Zhang B, Liang C, He H, Horwath WR (2019) Warming increases microbial residue contribution to soil organic carbon in an alpine meadow. Soil Biol Biochem 135:13–19. Ding Z, Kheir A, Ali MG, Ali OA, Abdelaal AI, Lin X, Zhou Z, Wang B, Liu B, He Z (2020) The integrated effect of salinity, organic amendments, phosphorus fertilizers, and deficit irrigation on soil properties, phosphorus fractionation and wheat productivity. Sci Rep 10:1–13. Ding Z, Kheir AM, Ali OA, Hafez EM, ElShamey EA, Zhou Z, Wang B, Ge Y, Fahmy AE, Seleiman MF (2021) A vermicompost and deep tillage system to improve saline-sodic soil quality and wheat productivity. J Environ Manag 277:111388. Dong L, Zhang W, Xiong Y, Zou J, Huang Q, Xu X, Ren P, Huang G (2022a) Impact of short-term organic amendments incorporation on soil structure and hydrology in semiarid agricultural lands. Intern Soil Water Conserv Res 10:457–469. Dong Y, Zhang J, Chen R, Zhong L, Lin X, Feng Y (2022b) Microbial community composition and activity in saline soils of coastal agro–ecosystems. Microorganisms 10:835. dos Santos WM, Gonzaga MIS, da Silva JA, de Almeida AQ, de Jesus Santos JC, Gonzaga TAS, da Silva LI, Araújo EM (2021) Effectiveness of different biochars in remediating a salt-affected Luvisol in Northeast Brazil. Biochar 3:149–159. Dubey PK, Singh A, Chaurasia R, Pandey KK, Bundela AK, Singh GS, Abhilash PC (2022) Animal manures and plant residue-based amendments for sustainable rice-wheat production and soil fertility improvement in eastern Uttar Pradesh, North India. Ecol Eng 177:106551. Echigo A, Hino M, Fukushima T, Mizuki T, Kamekura M, Usami R (2005) Endospores of halophilic bacteria of the family Bacillaceae isolated from non-saline Japanese soil may be transported by Kosa event (Asian dust storm). Saline Syst 1:8–8. Egamberdieva D, Alaylar B, Kistaubayeva A, Wirth S, Bellingrath-Kimura SD (2022a) Biochar for improving soil biological properties and mitigating salt stress in plants on salt-affected soils. Commun Soil Sci Plant Anal 53:140–152. Egamberdieva D, Alimov J, Shurigin V, Alaylar B, Wirth S, Bellingrath-Kimura SD (2022b) Diversity and plant growth-promoting ability of endophytic, halotolerant bacteria associated with Tetragonia tetragonioides (Pall.) Kuntze. Plants 11:49. EL Sabagh A et al. (2021): Salinity stress in wheat (Triticum aestivum L.) in the changing climate: adaptation and management strategies. Frontiers in Agronomy 3. Elkhlifi Z, Iftikhar J, Sarraf M, Ali B, Saleem MH, Ibranshahib I, Bispo MD, Meili L, Ercisli S, Torun Kayabasi E (2023) Potential role of biochar on capturing soil nutrients, carbon sequestration and managing environmental challenges: a review. Sustainability 15:2527. Fagodiya RK, Malyan SK, Singh D, Kumar A, Yadav RK, Sharma PC, Pathak H (2022) Greenhouse gas emissions from salt-affected soils: mechanistic understanding of interplay factors and reclamation approaches. Sustainability 14:11876. Fall D, Bakhoum N, Fall F, Diouf F, Ndiaye C, Faye MN, Hocher V, Diouf D (2018) Effect of peanut shells amendment on soil properties and growth of seedlings of Senegalia senegal (L.) Britton, Vachellia seyal (Delile) P. Hurter, and Prosopis juliflora (Swartz) DC in salt-affected soils. Ann Forest Sci 75:32. Farghali M, Mohamed IM, Osman AI, Rooney DW (2023) Seaweed for climate mitigation, wastewater treatment, bioenergy, bioplastic, biochar, food, pharmaceuticals, and cosmetics: a review. Environ Chem Lett 21:97–152. Farooqi ZUR, Sabir M, Ahmad HR, Shahbaz M, Smith J (2023) Reclaimed salt-affected soils can effectively contribute to carbon sequestration and food grain production: evidence from Pakistan. Appl Sci 13:1436. Galicia-Campos E, Ramos-Solano B, Montero-Palmero MB, Gutierrez-Mañero FJ, García-Villaraco A (2020) Management of plant physiology with beneficial bacteria to improve leaf bioactive profiles and plant adaptation under saline stress in Olea europea L. Foods 9:57. Gamalero E, Bona E, Todeschini V, Lingua G (2020) Saline and arid soils: impact on bacteria, plants, and their interaction. Biology 9:116. Garcia-Franco N, Wiesmeier M, Colocho Hurtarte LC, Fella F, Martínez-Mena M, Almagro M, Martínez EG, Kögel-Knabner I (2021) Pruning residues incorporation and reduced tillage improve soil organic matter stabilization and structure of salt-affected soils in a semi-arid Citrus tree orchard. Soil Tillage Res 213:105129. García-Palacios P, Crowther TW, Dacal M, Hartley IP, Reinsch S, Rinnan R, Rousk J, van den Hoogen J, Ye J-S, Bradford MA (2021) Evidence for large microbial-mediated losses of soil carbon under anthropogenic warming. Nat Rev Earth Environ 2:507–517. Garratt MPD, Bommarco R, Kleijn D, Martin E, Mortimer SR, Redlich S, Senapathi D, Steffan-Dewenter I, Świtek S, Takács V, Sv G, Putten WH, Potts SG (2018) Enhancing soil organic matter as a route to the ecological intensification of European arable systems. Ecosystems 21:1404–1415. Gehring CA (2017) Introduction: mycorrhizas and soil structure, moisture, and salinity, mycorrhizal mediation of soil. Elsevier, pp 235–240. Gilan I, Sivan A (2013) Extracellular DNA plays an important structural role in the biofilm of the plastic degrading Actinomycete rhodococcus ruber. AI Mag 3:543–551. Gomes MAC, Pestana IA, Santa-Catarina C, Hauser-Davis RA, Suzuki MS (2017) Salinity effects on photosynthetic pigments, proline, biomass and nitric oxide in Salvinia auriculata Aubl. Acta Limnologica Brasilien 29. Gondek K, Mierzwa-Hersztek M, Kopeć M, Sikora J, Głąb T, Szczurowska K (2019) Influence of biochar application on reduced acidification of sandy soil, increased cation exchange capacity, and the content of available forms of K, Mg, and P. Pol J Environ Stud 28:1–9. Gunarathne V, Senadeera A, Gunarathne U, Biswas JK, Almaroai YA, Vithanage M (2020) Potential of biochar and organic amendments for reclamation of coastal acidic-salt affected soil. Biochar 2:107–120. Guo H, Yi W, Dandan L, Jingbo C, Zong J, Wang Z, Xuan C, Liu J (2016) Growth response and ion regulation of seashore paspalum accessions to increasing salinity. Environ Exp Bot 131:137–145. Gupta A, Bano A, Rai S, Mishra R, Singh M, Sharma S, Pathak N (2022) Mechanistic insights of plant-microbe interaction towards drought and salinity stress in plants for enhancing the agriculture productivity. Plant Stress 4:100073. Gupta I, Gupta S (2019) Crop production in salt affected soils. Scientific Publishers. Hailu B, Mehari H (2021) Impacts of soil salinity/sodicity on soil-water relations and plant growth in dry land areas: a review. J Nat Sci Res 12:1–10. Haj-Amor Z, Araya T, Kim D-G, Bouri S, Lee J, Ghiloufi W, Yang Y, Kang H, Jhariya MK, Banerjee A (2022) Soil salinity and its associated effects on soil microorganisms, greenhouse gas emissions, crop yield, biodiversity and desertification: a review. Sci Total Environ 843:156946. Haouas A, El Modafar C, Douira A, Ibnsouda-Koraichi S, Filali-Maltouf A, Moukhli A, Amir S (2021) Evaluation of the nutrients cycle, humification process, and agronomic efficiency of organic wastes composting enriched with phosphate sludge. J Clean Prod 302:127051. Haque MM, Biswas MS, Mosharaf MK, Haque MA, Islam MS, Nahar K, Islam MM, Shozib HB, Islam MM, Ferdous EE (2022) Halotolerant biofilm-producing rhizobacteria mitigate seawater-induced salt stress and promote growth of tomato. Sci Rep 12:5599. Harindintwali JD, Zhou J, Muhoza B, Wang F, Herzberger A, Yu X (2021) Integrated eco-strategies towards sustainable carbon and nitrogen cycling in agriculture. J Environ Manag 293:112856. Haroon U, Khizar M, Liaquat F, Ali M, Akbar M, Tahir K, Batool SS, Kamal A, Chaudhary HJ, Munis MFH (2022) Halotolerant plant growth-promoting Rhizobacteria induce salinity tolerance in wheat by enhancing the expression of SOS genes. J Plant Growth Regul 41:2435–2448. Haroon U, Munis MFH, Liaquat F, Khizar M, Elahi M, Chaudhary HJ (2023) Biofilm formation and flocculation potential analysis of halotolerant Bacillus tequilensis and its inoculation in soil to mitigate salinity stress of chickpea. Physiol Mol Biol Plants 29:277–288. Hartmann M, Six J (2023) Soil structure and microbiome functions in agroecosystems. Nat Rev Earth Environ 4:4–18. He G, Wu C, Huang J, Zhou R (2017) Metabolic response of Tetragenococcus halophilus under salt stress. Biotechnol Bioprocess Eng 22:366–375. He M, Xiong X, Wang L, Hou D, Bolan NS, Ok YS, Rinklebe J, Tsang DC (2021) A critical review on performance indicators for evaluating soil biota and soil health of biochar-amended soils. J Hazard Mater 414:125378. He W, Wang H, Ye W, Tian Y, Hu G, Lou Y, Pan H, Yang Q, Zhuge Y (2022) Distinct stabilization characteristics of organic carbon in coastal salt-affected soils with different salinity under straw return management. Land Degrad Dev 33:2246–2257. Hoang HG, Thuy BTP, Lin C, Vo D-VN, Tran HT, Bahari MB, Vu CT (2022) The nitrogen cycle and mitigation strategies for nitrogen loss during organic waste composting: a review. Chemosphere 300:134514. Hoque MN, Imran S, Hannan A, Paul NC, Mahamud MA, Chakrobortty J, Sarker P, Irin IJ, Brestic M, Rhaman MS (2022) Organic amendments for mitigation of salinity stress in plants: a review. Life 12:1632. Hoque MN, Hannan A, Imran S, Paul NC, Mondal MF, Sadhin MMR, Bristi JM, Dola FS, Hanif MA, Ye W, Brestic M, Rhaman MS (2023) Plant growth-promoting Rhizobacteria-mediated adaptive responses of plants under salinity stress. J Plant Growth Regul 42:1307–1326. Hu Y, Zheng Q, Noll L, Zhang S, Wanek W (2020) Direct measurement of the in situ decomposition of microbial-derived soil organic matter. Soil Biol Biochem 141:107660. Hu Y, Zhang Y, Liu J, Chen X, Zhang J, Yao Y (2023) Nitrogen-rich animal and plant wastes as fertilizer improve the soil carbon/nitrogen ratio and plant branching and thickening of young walnut trees under deficit irrigation conditions. Arch Agron Soil Sci:1–16. https://doi.org/10.1080/03650340.2023.2189703. Huang J, Zhu C, Kong Y, Cao X, Zhu L, Zhang Y, Ning Y, Tian W, Zhang H, Yu Y, Zhang J (2022) Biochar application alleviated rice salt stress via modifying soil properties and regulating soil bacterial abundance and community structure. Agronomy 12:409. Igalavithana AD, Kim K-H, Jung J-M, Heo H-S, Kwon EE, Tack FM, Tsang DC, Jeon YJ, Ok YS (2019) Effect of biochars pyrolyzed in N2 and CO2, and feedstock on microbial community in metal (loid) s contaminated soils. Environ Int 126:791–801. Jaiswal B, Singh S, Agrawal SB, Lokupitiya E, Agrawal M (2022) Improvements in soil physical, chemical and biological properties at natural saline and non-saline sites under different management practices. Environ Manag 69:1005–1019. Jansa J, Forczek ST, Rozmoš M, Püschel D, Bukovská P, Hršelová H (2019) Arbuscular mycorrhiza and soil organic nitrogen: network of players and interactions. Chem Biol Technol Agric 6:1–10. Ji M, Wang X, Usman M, Liu F, Dan Y, Zhou L, Campanaro S, Luo G, Sang W (2022) Effects of different feedstocks-based biochar on soil remediation: a review. Environ Pollut 294:118655. Jiang H, Wang T, Chi X, Wang M, Chen N, Chen M, Pan L, Qi P (2020a) Isolation and characterization of halotolerant phosphate solubilizing bacteria naturally colonizing the peanut rhizosphere in salt-affected soil. Geomicrobiol J 37:110–118. Jiang R, Wang M, Chen W, Li X, Balseiro-Romero M (2020b) Changes in the integrated functional stability of microbial community under chemical stresses and the impacting factors in field soils. Ecol Indic 110:105919. Jiang YJ, Zhang Y, Zhou DM, Qin Y, Liang W (2018) Profile distribution of micronutrients in an aquic brown soil as affected by land use. Plant Soil Environ 55:468–476. Johan PD, Ahmed OH, Omar L, Hasbullah NA (2021) Phosphorus transformation in soils following co-application of charcoal and wood ash. Agronomy 11:2010. Joseph S, Cowie AL, Van Zwieten L, Bolan N, Budai A, Buss W, Cayuela ML, Graber ER, Ippolito JA, Kuzyakov Y (2021) How biochar works, and when it doesn't: a review of mechanisms controlling soil and plant responses to biochar. GCB Bioenergy 13:1731–1764. Joshi G, Kumar V, Brahmachari SK (2021) Screening and identification of novel halotolerant bacterial strains and assessment for insoluble phosphate solubilization and IAA production. Bull Natl Res Centre 45:83. Jurakulov B, Tagaev I, Alikulov B, Axanbayev S, Akramov I, Ismailov Z (2023) Population of Halocnemum strobilaceum (Pall.) M. Bieb in a dry salt lake of the Central Kyzylkum. Plant Sci Today 10:170–177. Juriga M, Šimanský V (2018) Effect of biochar on soil structure—review. Acta Fytotech Zootech 21:11–19. Kalami R, Pourbabaee A-A (2021) Investigating the potential of bioremediation in aged oil-polluted hypersaline soils in the south oilfields of Iran. Environ Monit Assess 193:517. Kallenbach CM, Frey SD, Grandy AS (2016) Direct evidence for microbial-derived soil organic matter formation and its ecophysiological controls. Nat Commun:7. Kamphorst A, Bolt GH (1976) Chapter 9 saline and sodic soils. Dev Soil Sci 5:171–191. Kapadia C, Sayyed R, El Enshasy HA, Vaidya H, Sharma D, Patel N, Malek RA, Syed A, Elgorban AM, Ahmad K (2021) Halotolerant microbial consortia for sustainable mitigation of salinity stress, growth promotion, and mineral uptake in tomato plants and soil nutrient enrichment. Sustainability 13:8369. Khan AU, Ullah F, Khan N, Mehmood S, Fahad S, Datta R, Irshad I, Danish S, Saud S, Alaraidh IA (2020a) Production of organic fertilizers from rocket seed (Eruca sativa L.), chicken peat and Moringa oleifera leaves for growing linseed under water deficit stress. Sustainability 13:59. Khan KS, Mack R, Castillo X, Kaiser M, Joergensen RG (2016) Microbial biomass, fungal and bacterial residues, and their relationships to the soil organic matter C/N/P/S ratios. Geoderma 271:115–123. Khan MA, Sahile AA, Jan R, Asaf S, Hamayun M, Imran M, Adhikari A, Kang S-M, Kim K-M, Lee I-J (2021) Halotolerant bacteria mitigate the effects of salinity stress on soybean growth by regulating secondary metabolites and molecular responses. BMC Plant Biol 21:176. Khan MI, Gwon HS, Alam MA, Song HJ, Das S, Kim PJ (2020b) Short term effects of different green manure amendments on the composition of main microbial groups and microbial activity of a submerged rice cropping system. Appl Soil Ecol 147:103400. Kim K, Samaddar S, Chatterjee P, Krishnamoorthy R, Jeon S, Sa T (2019) Structural and functional responses of microbial community with respect to salinity levels in a coastal reclamation land. Appl Soil Ecol 137:96–105. Kong C, Camps-Arbestain M, Clothier B, Bishop P, Vázquez FM (2021) Reclamation of salt-affected soils using pumice and algal amendments: Impact on soil salinity and the growth of lucerne. Environ Technol Innov 24:101867. Kumar M, Etesami H, Kumar V (2019) Saline soil-based agriculture by halotolerant microorganisms. Springer. Kumar P, Sharma PK (2020) Soil salinity and food security in India. Front Sustain Food Syst 4:533781. Kumar R, Singh A, Bhardwaj AK, Kumar A, Yadav RK, Sharma PC (2022) Reclamation of salt-affected soils in India: Progress, emerging challenges, and future strategies. Land Degrad Dev 33:2169–2180. Kumar S, Dhar S, Barthakur S, Rajawat MVS, Kochewad SA, Kumar S, Kumar D, Meena LR (2021) Farmyard manure as K-fertilizer modulates soil biological activities and yield of wheat using the integrated fertilization approach. Front Environ Sci 9:503. Kumari R, Bhatnagar S, Mehla N, Vashistha A (2022) Potential of organic amendments (AM fungi, PGPR, vermicompost and seaweeds) in combating salt stress–a review. Plant Stress 6:100111. Kunito T, Isomura I, Sumi H, Park H-D, Toda H, Otsuka S, Nagaoka K, Saeki K, Senoo K (2016) Aluminum and acidity suppress microbial activity and biomass in acidic forest soils. Soil Biol Biochem 97:23–30. Kusale SP, Attar YC, Sayyed R, Malek RA, Ilyas N, Suriani NL, Khan N, El Enshasy HA (2021) Production of plant beneficial and antioxidants metabolites by Klebsiella variicola under salinity stress. Molecules 26:1894. Laskosky JD, Mante AA, Zvomuya F, Amarakoon I, Leskiw L (2020) A bioassay of long-term stockpiled salvaged soil amended with biochar, peat, and humalite. Agrosyst Geosci Environ 3:e20068. Lauricella D, Butterly CR, Clark GJ, Sale PW, Li G, Tang C (2020) Effectiveness of innovative organic amendments in acid soils depends on their ability to supply P and alleviate Al and Mn toxicity in plants. J Soils Sediments 20:3951–3962. Leite MFA, Pan Y, Bloem J, Berge H, Kuramae EE (2017) Organic nitrogen rearranges both structure and activity of the soil-borne microbial seedbank. Sci Rep 7:42634. Leogrande R, Vitti C (2019) Use of organic amendments to reclaim saline and sodic soils: a review. Arid Land Res Manag 33:1–21. Li C, Zhang W, Yuan M, Jiang L, Sun B, Zhang DJ, Shao Y, Liu A, Liu XJ, Ma JH (2019) Transcriptome analysis of osmotic-responsive genes in ABA-dependent and -independent pathways in wheat (Triticum aestivum L.) roots. PeerJ 7:e6519. Li H-Y, Wang H, Wang H-T, Xin P-Y, Xu X-H, Ma Y, Liu W-P, Teng C-Y, Jiang C-L, Lou L-P (2018) The chemodiversity of paddy soil dissolved organic matter correlates with microbial community at continental scales. Microbiome 6:1–16. Li H, Luo N, Ji C, Li J, Zhang L, Xiao L, She X, Liu Z, Li Y, Liu C (2021) Liquid organic fertilizer amendment alters rhizosphere microbial community structure and co-occurrence patterns and improves sunflower yield under salinity-alkalinity stress. Microb Ecol 84:423–438. Li X, Xie J, Zhang Q, Lyu M, Xiong X, Liu X, Lin T, Yang Y (2020) Substrate availability and soil microbes drive temperature sensitivity of soil organic carbon mineralization to warming along an elevation gradient in subtropical Asia. Geoderma 364:114198. Li Y, Wang Y, Gu C, Shen C, Xu L, Zhao Y, Yi S, Zuo W, Shan Y, Zhang Z (2022) Differential effects of organic ameliorants on the reassembly of bacterial communities in newly amended coastal mudflat salt-affected soil. Agronomy 12:2525. Liang C, Yao Z, Du S, Hong M, Wang K, Zhang D (2019) Sediment pH, not the bacterial diversity, determines Escherichia coli O157:H7 survival in estuarine sediments. Environ Pollut 252:1078–1086. Liang Y, Zhang M, Wang M, Zhang W, Qiao C, Luo Q, Lu X (2020) Freshwater cyanobacterium Synechococcus elongatus PCC 7942 adapts to an environment with salt stress via ion-induced enzymatic balance of compatible solutes. Appl Environ Microbiol 86. Liang Y, Al-Kaisi M, Yuan J, Liu J, Zhang H, Wang L, Cai H, Ren J (2021) Effect of chemical fertilizer and straw-derived organic amendments on continuous maize yield, soil carbon sequestration and soil quality in a Chinese Mollisol. Agric Ecosyst Environ 314:107403. Libutti A, Russo D, Lela L, Ponticelli M, Milella L, Rivelli AR (2023) Enhancement of yield, phytochemical content and biological activity of a leafy vegetable (Beta vulgaris L. var. cycla) by using organic amendments as an alternative to chemical fertilizer. Plants 12:569. Lin Y, Ye G, Kuzyakov Y, Liu D, Fan J, Ding W (2019) Long-term manure application increases soil organic matter and aggregation, and alters microbial community structure and keystone taxa. Soil Biol Biochem 134:187–196. Liu C, Lin H, He P, Li X, Geng Y, Tuerhong A, Dong Y (2022a) Peat and bentonite amendments assisted soilless revegetation of oligotrophic and heavy metal contaminated nonferrous metallic tailing. Chemosphere 287:132101. Liu D, Ding Z, Ali EF, Kheir AM, Eissa MA, Ibrahim OH (2021a) Biochar and compost enhance soil quality and growth of roselle (Hibiscus sabdariffa L.) under saline conditions. Sci Rep 11:8739. Liu H, Xu W, Li J, Yu Z, Zeng Q, Tan W, Mi W (2021b) Short-term effect of manure and straw application on bacterial and fungal community compositions and abundances in an acidic paddy soil. J Soils Sediments 21:3057–3071. Liu H, Du X, Li Y, Han X, Li B, Zhang X, Li Q, Liang W (2022b) Organic substitutions improve soil quality and maize yield through increasing soil microbial diversity. J Clean Prod 347:131323. Liu S, Wang J, Pu S, Blagodatskaya E, Kuzyakov Y, Razavi BS (2020) Impact of manure on soil biochemical properties: a global synthesis. Sci Total Environ 745:141003. Liu W-X, Wei Y-X, Li R-C, Chen Z, Wang H-D, Virk AL, Lal R, Zhao X, Zhang H-L (2022c) Improving soil aggregates stability and soil organic carbon sequestration by no-till and legume-based crop rotations in the North China Plain. Sci Total Environ 847:157518. Liu X, Zhou F, Hu G, Shao S, He H, Zhang W, Zhang X, Li L (2019) Dynamic contribution of microbial residues to soil organic matter accumulation influenced by maize straw mulching. Geoderma. Liu Z, Zhou H, Xie W, Yang Z, Lv Q (2021c) Long-term effects of maize straw return and manure on the microbial community in cinnamon soil in Northern China using 16S rRNA sequencing. PLoS One 16:e0249884. Lu H, Lashari MS, Liu X, Ji H, Li L, Zheng J, Kibue GW, Joseph S, Pan G (2015) Changes in soil microbial community structure and enzyme activity with amendment of biochar-manure compost and pyroligneous solution in a saline soil from Central China. Eur J Soil Biol 70:67–76. Luan H, Gao W, Huang S, Tang J, Li M, Zhang H, Chen X (2019) Partial substitution of chemical fertilizer with organic amendments affects soil organic carbon composition and stability in a greenhouse vegetable production system. Soil Tillage Res 191:185–196. Mahajan SG, Nandre VS, Salunkhe RC, Shouche YS, Kulkarni MV (2020) Chemotaxis and physiological adaptation of an indigenous abiotic stress tolerant plant growth promoting Pseudomonas stutzeri: amelioration of salt stress to Cicer arietinum. Biocatal Agric Biotechnol 27:101652. Mahmud FMA, Islam MA, Rubel MH, Mukharjee SK, Kumar M, Bhattacharya P, Ahmed F (2023) Effects of halotolerant rhizobacteria on rice seedlings under salinity stress. Sci Total Environ 163774. Maksimović I, Ilin Ž (2012) Effects of salinity on vegetable growth and nutrients uptake. In: Irrigation Systems and Practices in Challenging Environments. Books on Demand. Manasa MRK, Katukuri NR, Darveekaran Nair SS, Haojie Y, Yang Z, Guo R (2020) Role of biochar and organic substrates in enhancing the functional characteristics and microbial community in a saline soil. J Environ Manag 269:110737. Mangalassery S, Kalaivanan D, Philip PS (2019) Effect of inorganic fertilisers and organic amendments on soil aggregation and biochemical characteristics in a weathered tropical soil. Soil Tillage Res 187:144–151. Mao X, Yang Y, Guan P, Geng L, Ma L, Di H, Liu W, Li B (2022) Remediation of organic amendments on soil salinization: Focusing on the relationship between soil salts and microbial communities. Ecotoxicol Environ Saf 239:113616. Marghoob MU, Nawaz A, Ahmad M, Waheed MQ, Khan MH, Imtiaz M, Islam E, Imran A, Mubeen F (2023) Assessment of halotolerant bacterial and fungal consortium for augmentation of wheat in saline soils. Front Microbiol 14:1207784. Mbarki S, Cerdà A, Brestic M, Mahendra R, Abdelly C, Pascual JA (2017) Vineyard compost supplemented with Trichoderma harzianum T78 improve saline soil quality. Land Degrad Dev 28:1028–1037. Mi J, Gregorich EG, Xu S, McLaughlin NB, Ma B, Liu J (2021) Changes in soil biochemical properties following application of bentonite as a soil amendment. Eur J Soil Biol 102:103251. Mitchell E, Scheer C, Rowlings DW, Conant RT, Cotrufo MF, Grace PR (2018) Amount and incorporation of plant residue inputs modify residue stabilisation dynamics in soil organic matter fractions. Agric Ecosyst Environ 256:82–91. Mondal S, Chakraborty D, Bandyopadhyay K, Aggarwal P, Rana DS (2020) A global analysis of the impact of zero-tillage on soil physical condition, organic carbon content, and plant root response. Land Degrad Dev 31:557–567. Moreira H, Pereira SIA, Vega A, Castro PML, Marques APGC (2020) Synergistic effects of arbuscular mycorrhizal fungi and plant growth-promoting bacteria benefit maize growth under increasing soil salinity. J Environ Manag 257:109982. Moustafa-Farag M, Elkelish A, Dafea M, Khan M, Arnao MB, Abdelhamid MT, El-Ezz AA, Almoneafy A, Mahmoud A, Awad M (2020) Role of melatonin in plant tolerance to soil stressors: salinity, pH and heavy metals. Molecules 25:5359. Mustafa A, Minggang X, Shah SAA, Abrar MM, Nan S, Baoren W, Zejiang C, Saeed Q, Naveed M, Mehmood K (2020) Soil aggregation and soil aggregate stability regulate organic carbon and nitrogen storage in a red soil of southern China. J Environ Manag 270:110894. Mustafa G, Akhtar MS, Abdullah R (2019) Global concern for salinity on various agro-ecosystems. In: Salt Stress, Microbes, and Plant Interactions: Causes and Solution. Springer, pp 1–19. Na X, Yu H, Wang P, Zhu W, Niu Y, Huang J (2019) Vegetation biomass and soil moisture coregulate bacterial community succession under altered precipitation regimes in a desert steppe in northwestern China. Soil Biol Biochem 136:107520. Nakasaki K, Hirai H, Mimoto H, Quyen TNM, Koyama M, Takeda K (2019) Succession of microbial community during vigorous organic matter degradation in the primary fermentation stage of food waste composting. Sci Total Environ 671:1237–1244. Navada S, Vadstein O, Gaumet F, Tveten A-K, Spanu C, Mikkelsen Ø, Kolarevic J (2020) Biofilms remember: osmotic stress priming as a microbial management strategy for improving salinity acclimation in nitrifying biofilms. Water Res 176:115732. Nguyen BT, Trinh NN, Bach Q-V (2020) Methane emissions and associated microbial activities from paddy salt-affected soil as influenced by biochar and cow manure addition. Appl Soil Ecol 152:103531. Nguyen BT, Dinh GD, Nguyen TX, Nguyen DTP, Vu TN, Tran HTT, Van Thai N, Vu H, Do DD (2022) The potential of biochar to ameliorate the major constraints of acidic and salt-affected soils. J Soil Sci Plant Nutr 22:1340–1350. Nisha R, Kiran B, Kaushik A, Kaushik CP (2018) Bioremediation of salt affected soils using cyanobacteria in terms of physical structure, nutrient status and microbial activity. Int J Environ Sci Technol 15:571–580. Omar M, Shitindi M, Massawe BJ, Fue K, Meliyo J, Pedersen O (2023) Salt-affected soils in Tanzanian agricultural lands: type of soils and extent of the problem. Sustain Environ 9:2205731. Orhan F, Gulluce M (2015a) Isolation and characterization of salt-tolerant bacterial strains in salt-affected soils of East Anatolian Region. Geomicrobiol J 32:10–16. Orhan F, Gulluce M (2015b) Isolation and characterization of salt-tolerant bacterial strains in salt-affected soils of Erzurum, Turkey. Geomicrobiol J 32:521–529. Paerl HW, Pinckney JL, Steppe TF (2000) Cyanobacterial–bacterial mat consortia: examining the functional unit of microbial survival and growth in extreme environments. Environ Microbiol 2:11–26. Pandey S, Brown PH, McHenry M (2016) Plant root development as a measure of soil health. In: XXIX International Horticultural Congress on Horticulture: Sustaining Lives, Livelihoods and Landscapes (IHC2014): 1123. https://doi.org/10.17660/ActaHortic.2016.1123.6. (PMID: 10.17660/ActaHortic.2016.1123.6) Pankaj U, Singh DN, Mishra P, Gaur P, Babu CSV, Shanker K, Verma RK (2020) Autochthonous halotolerant plant growth-promoting rhizobacteria promote bacoside A yield of Bacopa monnieri (L.) Nash and phytoextraction of salt-affected soil. Pedosphere 30:671–683. Panwar M, Tewari R, Nayyar H (2016) Native halo-tolerant plant growth promoting rhizobacteria Enterococcus and Pantoea sp. improve seed yield of Mungbean (Vigna radiata L.) under soil salinity by reducing sodium uptake and stress injury. Physiol Mol Biol Plants 22:445–459. Pastor JM, Bernal V, Salvador M, Argandoña M, Vargas C, Csonka L, Sevilla Á, Iborra JL, Nieto JJ, Cánovas M (2013) Role of central metabolism in the osmoadaptation of the halophilic bacterium Chromohalobacter salexigens. J Biol Chem 288:17769–17781. Pease B, Thompson GL, Thoms AW (2022) Evaluation of compost and soil mix ratios for perennial ryegrass establishment on topsoil and subsoil. HortTechnology 32:191–198. Peng SL, Ge ZW, Liu GC, Mao LF (2022) Environmental drivers of soil microbial activity and diversity along an elevational gradient. J Mt Sci 19:1336–1347. Pervaiz ZH, Iqbal J, Zhang Q, Chen D, Wei H, Saleem M (2020) Continuous cropping alters multiple biotic and abiotic indicators of soil health. Soil Systems 4:59. Petruzzello M (2021) Compost. Encyclopedia/Agriculture and Agricultural Technology Article. https://www.britannica.com/topic/compost . Accessed 1 June 2023. Phuong NTK, Khoi CM, Ritz K, Linh TB, Minh DD, Duc TA, Sinh NV, Linh TT, Toyota K (2020) Influence of rice husk biochar and compost amendments on salt contents and hydraulic properties of soil and rice yield in salt-affected fields. Agronomy 10:1101. Poleatewich A, Michaud I, Jackson B, Krause M, DeGenring L (2022) The effect of peat moss amended with three engineered wood substrate components on suppression of damping-off caused by Rhizoctonia solani. Agriculture 12:2092. Prasanna Kumar B, Trimurtulu N, Vijaya Gopal A, Nagaraju Y (2022) Impact of culturable endophytic bacteria on soil aggregate formation and peanut (Arachis hypogaea L.) growth and yield under drought conditions. Curr Microbiol 79:308. Qaswar M, Chai R, Ahmed W, Jing H, Han T, Liu K, Ye X, Xu Y, Anthonio CK, Zhang H (2020) Partial substitution of chemical fertilizers with organic amendments increased rice yield by changing phosphorus fractions and improving phosphatase activities in fluvo-aquic soil. J Soils Sediments 20:1285–1296. Quilty JR, Cattle SR (2011) Use and understanding of organic amendments in Australian agriculture: a review. Soil Res 49:1–26. Qurashi AW, Sabri AN (2012) Bacterial exopolysaccharide and biofilm formation stimulate chickpea growth and soil aggregation under salt stress. Braz J Microbiol 43:1183–1191. Rahman MM, Kamal MZU, Ranamukhaarachchi S, Alam MS, Alam MK, Khan MAR, Islam MM, Alam MA, Jiban SI, Mamun MAA (2022) Effects of organic amendments on soil aggregate stability, carbon sequestration, and energy use efficiency in wetland paddy cultivation. Sustainability 14:4475. Rashed S, Abo-Elela E, Amer M (2022) Improving and sustaining some soil properties by application of some soil amendments and N-fertilizer and its effect on productivity of wheat and rice crops under salt-affected soils. Asian J Soil Sci Plant Nutrition 8:1–12. Rashmi I, Ali S, Kumar K, Kumar A, Jat RA, Kala S, Sharma GK, Pal R (2023) Crop yield, nutrient uptake, nutrient use efficiency and soil properties of soybean-mustard system as influenced by soil amendments in degraded vertisol of western India. J Plant Nutrition:1–18. 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 81:108–123. Rath KM, Maheshwari A, Rousk J (2019) Linking microbial community structure to trait distributions and functions using salinity as an environmental filter. mBio 10:e01607–e01619. Rayne N, Aula L (2020) Livestock manure and the impacts on soil health: a review. Soil Systems 4:64. Raza ST, Wu J, Rene ER, Ali Z, Chen Z (2022) Reuse of agricultural wastes, manure, and biochar as an organic amendment: a review on its implications for vermicomposting technology. J Clean Prod 360:132200. Rekaby SA, Awad MYM, Hegab SA, Eissa MA (2020) Effect of some organic amendments on barley plants under saline condition. J Plant Nutr 43:1840–1851. Ren D, Wei B, Xu X, Engel B, Li G, Huang Q, Xiong Y, Huang G (2019) Analyzing spatiotemporal characteristics of soil salinity in arid irrigated agro-ecosystems using integrated approaches. Geoderma 356:113935. Rengasamy P (2020) Salt-affected soils: sustainable agriculture, managing soils and terrestrial systems. CRC Press, pp 83–92. Riaz M, Marschner P (2020) Sandy soil amended with clay soil: effect of clay soil properties on soil respiration, microbial biomass, and water extractable organic C. J Soil Sci Plant Nutr 20:2465–2470. Rincon-Florez VA, Carvalhais LC, Dang YP, Crawford MH, Schenk PM, Dennis PG (2020) Significant effects on soil microbial communities were not detected after strategic tillage following 44 years of conventional or no-tillage management. Pedobiologia 80:150640. Roberson EB, Firestone MK (1992) Relationship between desiccation and exopolysaccharide production in a soil Pseudomonas sp. Appl Environ Microbiol 58:1284–1291. Rocci KS, Lavallee JM, Stewart CE, Cotrufo MF (2021) Soil organic carbon response to global environmental change depends on its distribution between mineral-associated and particulate organic matter: a meta-analysis. Sci Total Environ 793:148569. Romano-Armada N, Yañez-Yazlle MF, Irazusta VP, Rajal VB, Moraga NB (2020) Potential of bioremediation and PGP traits in Streptomyces as strategies for bio-reclamation of salt-affected soils for agriculture. Pathogens 9:117. Ruehlmann J (2020) Soil particle density as affected by soil texture and soil organic matter: 1. Partitioning of SOM in conceptional fractions and derivation of a variable SOC to SOM conversion factor. Geoderma 375:114542. Sakai Y, Shimizu C, Murata H, Seto H, Fukushima R, Koga T, Wang C (2020) Changes in soil physicochemical properties and maize production following improvement of salt-affected soils using coal bio-briquette ash in northeast China. Agronomy 10:348. Saleh J, Najafi N, Oustan S (2017) Effects of silicon application on wheat growth and some physiological characteristics under different levels and sources of salinity. Commun Soil Sci Plant Anal 48:1114–1122. Sall SN, Ndour NYB, Diédhiou-Sall S, Dick R, Chotte J-L (2015) Microbial response to salinity stress in a tropical sandy soil amended with native shrub residues or inorganic fertilizer. J Environ Manag 161:30–37. Sardar MF, Younas F, Farooqi ZUR, Li YL (2023) Soil nitrogen dynamics in natural forest ecosystem: a review. Front For Glob Change 6:1144930. https://doi.org/10.3389/ffgc.2023.1144930. (PMID: 10.3389/ffgc.2023.1144930) Sardar MF, Zhu CX, Geng B, Huang YL, Abbasi B, Zhang ZG, Song TT, Li HN (2021a) Enhanced control of sulfonamide resistance genes and host bacteria during thermophilic aerobic composting of cow manure. Environ Pollut 275:16587. https://doi.org/10.1016/j.envpol.2021.116587. (PMID: 10.1016/j.envpol.2021.116587) Sardar MF, Zhu CX, Geng B, Ahmad HR, Song TT, Li HN (2021b) The fate of antibiotic resistance genes in cow manure composting: shaped by temperature-controlled composting stages. Bioresour Technol 320:124403. https://doi.org/10.1016/j.biortech.2020.124403. (PMID: 10.1016/j.biortech.2020.124403) Sardar MF, Li H, Zhu C, Dar AA, Zhang B, Waqas MA (2021c) Differential effects of sulfamethoxazole concentrations on the enzymatic dynamics of aerobic composting. Bioresour Technol 336:125330. Sarkar A, Ghosh PK, Pramanik K, Mitra S, Soren T, Pandey S, Mondal MH, Maiti TK (2018) A halotolerant Enterobacter sp. displaying ACC deaminase activity promotes rice seedling growth under salt stress. Res Microbiol 169:20–32. Sayara T, Basheer-Salimia R, Hawamde F, Sánchez A (2020) Recycling of organic wastes through composting: process performance and compost application in agriculture. Agronomy 10:1838. Schmidt IK, Jonasson S, Shaver GR, Michelsen A, Nordin A (2002) Mineralization and distribution of nutrients in plants and microbes in four arctic ecosystems: responses to warming. Plant Soil 242:93–106. Schoebitz M, Vidal G (2016) Microbial consortium and pig slurry to improve chemical properties of degraded soil and nutrient plant uptake(Schoebitz and Vidal, 2016). J Soil Sci Plant Nutr 16:226–236. 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. Semenov VM, Pautova NB, Lebedeva TN, Khromychkina DP, Semenova NA, Lopes de Gerenyu VO (2019) Plant residues decomposition and formation of active organic matter in the soil of the incubation experiments. Eurasian Soil Sci 52:1183–1194. Shaaban M, Abid M, Abou-Shanab R (2013) Amelioration of salt affected soils in rice paddy system by application of organic and inorganic amendments. Plant Soil Environ 59:227–233. Shabaan M, Asghar HN, Zahir ZA, Zhang X, Sardar MF, Li H (2022) Salt-tolerant PGPR confer salt tolerance to maize through enhanced soil biological health, enzymatic activities, nutrient uptake and antioxidant defense. Front Microbiol 13:901865. Shahid MA, Balal RM, Pervez MA, Abbas T, Aqeel M, Riaz A, Mattson NS (2015) Exogenous 24-epibrassinolide elevates the salt tolerance potential of pea (Pisum sativum L.) by improving osmotic adjustment capacity and leaf water relations. J Plant Nutr 38:1050–1072. Sharma B, Vaish B, Singh UK, Singh P, Singh RP (2019) Recycling of organic wastes in agriculture: an environmental perspective. International journal of environmental research 13:409–429. Shen Z, Yu Z, Xu L, Zhao Y, Yi S, Shen C, Wang Y, Li Y, Zuo W, Gu C, Shan Y, Bai Y (2022) Effects of vermicompost application on growth and heavy metal uptake of barley grown in mudflat salt-affected soils. Agronomy 12:1007. Shi X, Zhao X, Ren J, Dong J, Zhang H, Dong Q, Jiang C, Zhong C, Zhou Y, Yu H (2021) Influence of peanut, sorghum, and soil salinity on microbial community composition in interspecific interaction zone. Front Microbiol 12:678250. Siedt M, Schäffer A, Smith KE, Nabel M, Roß-Nickoll M, van Dongen JT (2021) Comparing straw, compost, and biochar regarding their suitability as agricultural soil amendments to affect soil structure, nutrient leaching, microbial communities, and the fate of pesticides. Sci Total Environ 751:141607. Singh AV, Khan A, Joshi M (2021) Plant–microbe interaction: a sustainable strategy to elevate salinity tolerance in plants. In: Sharma A (ed) Microbes and signaling biomolecules against plant stress: strategies of plant-microbe relationships for better survival. Springer Singapore, Singapore, pp 37–54. Soothar MK, Hamani AKM, Sardar MF, Sootahar MK, Fu Y, Rahim R, Soothar JK, Bhatti SM, Abubakar SA, Gao Y, Sun J (2021) Maize (Zea mays L) Seedlings rhizosphere microbial community as responded to acidic biochar amendment under saline conditions. Front Microbiol 12:789235. Song TT, Zhu CX, Li BX, Jiang KY, Wang XR, Sardar MF, Xue S, Huang YL, Li HN (2021) Ciprofloxacin causes the greatest bacterial community variation in swine manure composting. Front Environ Sci 9:786592. Sprunger CD, Culman SW, Palm CA, Thuita M, Vanlauwe B (2019) Long-term application of low C:N residues enhances maize yield and soil nutrient pools across Kenya. Nutr Cycl Agroecosyst 114:261–276. Srivastava AK, Sharma A, Srivastava R, Tiwari PK, Singh AK, Yadav J, Jamali H, Bharati AP, Srivastava AK, Kashyap PL, Chakdar H, Kumar M, Saxena AK (2019) Draft genome sequence of halotolerant bacterium Chromohalobacter salexigens ANJ207, isolated from salt crystal deposits in pipelines. Microbiol Resource Announce 8. https://doi.org/10.1128/mra.00049-19. Steen AD, Kevorkian RT, Bird JT, Dombrowski N, Baker BJ, Hagen SM, Mulligan KH, Schmidt JM, Webber AT, Royalty TM, Alperin MJ (2019) Kinetics and identities of extracellular peptidases in subsurface sediments of the White Oak River Estuary, North Carolina. Appl Environ Microbiol 85:e00102–e00119. Sulok KMT, Ahmed OH, Khew CY, Zehnder JAM, Jalloh MB, Musah AA, Abdu A (2021) Chemical and biological characteristics of organic amendments produced from selected agro-wastes with potential for sustaining soil health: A laboratory assessment. Sustainability 13:4919. Sun W, Xiao E, Häggblom M, Krumins V, Dong Y, Sun X, Li F, Wang Q, Li B, Yan B (2018) Bacterial survival strategies in an alkaline tailing site and the physiological mechanisms of dominant phylotypes as revealed by metagenomic analyses. Environ Sci Technol 52:13370–13380. Sunita K, Mishra I, Mishra J, Prakash J, Arora NK (2020) Secondary metabolites from halotolerant plant growth promoting rhizobacteria for ameliorating salinity stress in plants. Front Microbiol 11:567768. Szoboszlay M, Näther A, Liu B, Carrillo A, Castellanos T, Smalla K, Jia Z, Tebbe CC (2019) Contrasting microbial community responses to salinization and straw amendment in a semiarid bare soil and its wheat rhizosphere. Sci Rep 9:1–11. Tang J, Zhang S, Zhang X, Chen J, He X, Zhang Q (2020a) Effects of pyrolysis temperature on soil-plant-microbe responses to Solidago canadensis L-derived biochar in coastal saline-alkali soil. Sci Total Environ 731:138938. Tang S, She D, Wang H (2020b) Effect of salinity on soil structure and soil hydraulic characteristics. Can J Soil Sci 101:62–73. Tautges NE, Chiartas JL, Gaudin ACM, O'Geen AT, Herrera I, Scow KM (2019) Deep soil inventories reveal that impacts of cover crops and compost on soil carbon sequestration differ in surface and subsurface soils. Glob Chang Biol 25:3753–3766. Teh AHT, Lee S-M, Dykes GA (2019) Association of some Campylobacter jejuni with Pseudomonas aeruginosa biofilms increases attachment under conditions mimicking those in the environment. PLoS One 14:e0215275. Tian J, Wang J, Dippold M, Gao Y, Blagodatskaya E, Kuzyakov Y (2016) Biochar affects soil organic matter cycling and microbial functions but does not alter microbial community structure in a paddy soil. Sci Total Environ 556:89–97. Trivedi P, Singh K, Pankaj U, Verma SK, Verma RK, Patra DD (2017) Effect of organic amendments and microbial application on sodic soil properties and growth of an aromatic crop. Ecol Eng 102:127–136. Ullah I, Hanping M, Chuan Z, Javed Q, Azeem A (2017) Optimization of irrigation and nutrient concentration based on economic returns, substrate salt accumulation and water use efficiency for tomato in greenhouse. Arch Agron Soil Sci 63:1748–1762. Ullah N, Ditta A, Imtiaz M, Li X, Jan AU, Mehmood S, Rizwan MS, Rizwan M (2021) Appraisal for organic amendments and plant growth-promoting rhizobacteria to enhance crop productivity under drought stress: A review. J Agron Crop Sci 207:783–802. Urra J, Alkorta I, Garbisu C (2019) Potential benefits and risks for soil health derived from the use of organic amendments in agriculture. Agronomy 9:542. Uzarowicz Ł, Wolińska A, Błońska E, Szafranek-Nakonieczna A, Kuźniar A, Słodczyk Z, Kwasowski W (2020) Technogenic soils (Technosols) developed from mine spoils containing Fe sulphides: microbiological activity as an indicator of soil development following land reclamation. Appl Soil Ecol 156:103699. Vaidya S, Dev K, Sourirajan A (2018) Distinct osmoadaptation strategies in the strict halophilic and halotolerant bacteria isolated from Lunsu salt water body of North West Himalayas. Curr Microbiol 75:888–895. van Overbeek LS, Senechkin IV, van Bruggen AHC (2012) Variation in microbial responses and Rhizoctonia solani AG2-2IIIB growth in soil under different organic amendment regimes. Can J Plant Pathol 34:268–276. Veloso MG, Cecagno D, Bayer C (2019) Legume cover crops under no-tillage favor organomineral association in microaggregates and soil C accumulation. Soil Tillage Res 190:139–146. Vida C, de Vicente A, Cazorla FM (2020) The role of organic amendments to soil for crop protection: induction of suppression of soilborne pathogens. Ann Appl Biol 176:1–15. Vidal A, Klöffel T, Guigue J, Angst G, Steffens M, Hoeschen C, Mueller CW (2021) Visualizing the transfer of organic matter from decaying plant residues to soil mineral surfaces controlled by microorganisms. Soil Biol Biochem 160:108347. Wang B, An S, Liang C, Liu Y, Kuzyakov Y (2021a) Microbial necromass as the source of soil organic carbon in global ecosystems. Soil Biol Biochem 162:108422. Wang G, Ma F, Wang H, Xu X, Zhou GH (2017a) Characterization of extracellular polymeric substances produced by Pseudomonas fragi under air and modified atmosphere packaging. J Food Sci 82(9):2151–2157. Wang J, Sun N, Xu M, Wang S, Zhang J, Cai Z, Cheng Y (2019) The influence of long-term animal manure and crop residue application on abiotic and biotic N immobilization in an acidified agricultural soil. Geoderma 337:710–717. Wang J, Chen Z, Xu C, Elrys AS, Shen F, Cheng Y, Chang SX (2021b) Organic amendment enhanced microbial nitrate immobilization with negligible denitrification nitrogen loss in an upland soil. Environ Pollut 288:117721. Wang J, Lin C, Han Z, Fu C, Huang D, Cheng H (2022a) Dissolved nitrogen in salt-affected soils reclaimed by planting rice: how is it influenced by soil physicochemical properties? Sci Total Environ 824:153863. Wang L, Sun X, Li S, Zhang T, Zhang W, Zhai P (2014) Application of organic amendments to a coastal saline soil in North China: effects on soil physical and chemical properties and tree growth. PLoS One 9:e89185. Wang M, Lan X, Xu X, Fang Y, Singh BP, Sardans J, Romero E, Peñuelas J, Wang W (2020a) Steel slag and biochar amendments decreased CO2 emissions by altering soil chemical properties and bacterial community structure over two-year in a subtropical paddy field. Sci Total Environ 740:140403. Wang X-B, Azarbad H, Leclerc L, Dozois J, Mukula E, Yergeau É (2022b) A drying-rewetting cycle imposes more important shifts on soil microbial communities than does reduced precipitation. mSystems 7:e00247–e00222. Wang X, Sun R, Tian Y, Guo K, Sun H, Liu X, Chu H, Liu B (2020b) Long-term phytoremediation of coastal saline soil reveals plant species-specific patterns of microbial community recruitment. mSystems 5:10–1128. Wang Y, Li C, Tu C, Hoyt GD, DeForest JL, Hu S (2017b) Long-term no-tillage and organic input management enhanced the diversity and stability of soil microbial community. Sci Total Environ 609:341–347. Wang Y, Liu L, Yang J, Duan Y, Luo Y, Taherzadeh MJ, Li Y, Li H, Awasthi MK, Zhao Z (2020c) The diversity of microbial community and function varied in response to different agricultural residues composting. Sci Total Environ 715:136983. Wang Z, Pan X, Kuang S, Chen C, Wang X, Xu J, Li X, Li H, Zhuang Q, Zhang F (2022c) Amelioration of coastal salt-affected soils with biochar, acid modified biochar and wood vinegar: enhanced nutrient availability and bacterial community modulation. Int J Environ Res Public Health 19:7282. Wichern F, Islam MR, Hemkemeyer M, Watson C, Joergensen RG (2020) Organic amendments alleviate salinity effects on soil microorganisms and mineralisation processes in aerobic and anaerobic paddy rice soils. Front Sustain Food Syst 4:30. Wilpiszeski RL, Aufrecht JA, Retterer ST, Sullivan MB, Graham DE, Pierce EM, Zablocki OD, Palumbo AV, Elias DA (2019) Soil aggregate microbial communities: towards understanding microbiome interactions at biologically relevant scales. Appl Environ Microbiol 85:e00324–e00319. Woolf D, Lehmann J (2019) Microbial models with minimal mineral protection can explain long-term soil organic carbon persistence. Sci Rep 9:6522. Wu X, Peng J, Liu P, Bei Q, Rensing C, Li Y, Yuan H, Liesack W, Zhang F, Cui Z (2021) Metagenomic insights into nitrogen and phosphorus cycling at the soil aggregate scale driven by organic material amendments. Sci Total Environ 785:147329. Xiao L, Yuan G, Feng L, Bi D, Wei J, Shen G, Liu Z (2020) Coupled effects of biochar use and farming practice on physical properties of a salt-affected soil with wheat–maize rotation. J Soils Sediments 20:3053–3061. Xiao M, Liu G, Jiang S, Guan X, Chen J, Yao R, Wang X (2022) Bio-organic fertilizer combined with different amendments improves nutrient enhancement and salt leaching in saline soil: a soil column experiment. Water 14:4084. Xiong Y-W, Gong Y, Li X-W, Chen P, Ju X-Y, Zhang C-M, Yuan B, Lv Z-P, Xing K, Qin S (2019) Enhancement of growth and salt tolerance of tomato seedlings by a natural halotolerant actinobacterium Glutamicibacter halophytocola KLBMP 5180 isolated from a coastal halophyte. Plant Soil 445:307–322. Yali W, Zhong-hao Z, Gang-cai L (2012) Physico-chemical properties and enzyme activities of the arable soils in Lhasa, Tibet, China. J Mt Sci 9:558–569. Yan D, Long X-E, Ye L, Zhang G, Hu A, Wang D, Ding S (2021) Effects of salinity on microbial utilization of straw carbon and microbial residues retention in newly reclaimed coastal soil. Eur J Soil Biol 107:103364. Yang C, Lv D, Jiang S, Lin H, Sun J, Li K, Sun J (2021a) Soil salinity regulation of soil microbial carbon metabolic function in the Yellow River Delta, China. Sci Total Environ 790:148258. Yang D, Xiao X, He N, Zhu W, Liu M, Xie G (2020) Effects of reducing chemical fertilizer combined with organic amendments on ammonia-oxidizing bacteria and archaea communities in a low-fertility red paddy field. Environ Sci Pollut Res 27:29422–29432. Yang X, Tsibart A, Nam H, Hur J, El-Naggar A, Tack FM, Wang C-H, Lee YH, Tsang DC, Ok YS (2019) Effect of gasification biochar application on soil quality: trace metal behavior, microbial community, and soil dissolved organic matter. J Hazard Mater 365:684–694. Yang X, Zhu K, Loik ME, Sun W (2021b) Differential responses of soil bacteria and fungi to altered precipitation in a meadow steppe. Geoderma 384:114812. Yao R, Gao Q, Liu Y, Li H, Yang J, Bai Y, Zhu H, Wang X, Xie W, Zhang X (2023) Deep vertical rotary tillage mitigates salinization hazards and shifts microbial community structure in salt-affected anthropogenic-alluvial soil. Soil Tillage Res 227:105627. Yasmin H, Naeem S, Bakhtawar M, Jabeen Z, Nosheen A, Naz R, Keyani R, Mumtaz S, Hassan MN (2020) Halotolerant rhizobacteria Pseudomonas pseudoalcaligenes and Bacillus subtilis mediate systemic tolerance in hydroponically grown soybean (Glycine max L.) against salinity stress. PLoS One 15:e0231348. Yin Y, Yan Z (2020) Variations of soil bacterial diversity and metabolic function with tidal flat elevation gradient in an artificial mangrove wetland. Sci Total Environ 718:137385. Zhai S, Tong Z, Xie J, Chen W, Yang B, Meng Y, Chen C, Yang H (2023) Mycorrhiza-mediated nitrogen cycling depends on earthworm behavior under different straw management regimes. Catena 220:106663. Zhalnina K, Dias R, de Quadros PD, Davis-Richardson A, Camargo FAO, Clark IM, McGrath SP, Hirsch PR, Triplett EW (2015) Soil pH determines microbial diversity and composition in the park grass experiment. Microb Ecol 69:395–406. Zhang G, Bai J, Tebbe CC, Zhao Q, Jia J, Wang W, Wang X, Yu L (2021a) Salinity controls soil microbial community structure and function in coastal estuarine wetlands. Environ Microbiol 23:1020–1037. Zhang K, Shi Y, Cui X, Yue P, Li K, Liu X, Tripathi BM, Chu H (2019a) Salinity is a key determinant for soil microbial communities in a desert ecosystem. mSystems 4:e00225–e00218. Zhang Q, Zhou J, Li X, Liu C, Lin W, Zheng W, Chen Y, Yang Y (2019b) Nitrogen addition accelerates the nitrogen cycle in a young subtropical Cunninghamia lanceolata (Lamb.) plantation. Ann For Sci 76:1–15. Zhang T, Wang T, Liu KS, Wang L, Wang K, Zhou Y (2015) Effects of different amendments for the reclamation of coastal saline soil on soil nutrient dynamics and electrical conductivity responses. Agric Water Manag 159:115–122. Zhang WW, Chong W, Rui X, Wang L-j (2019) Effects of salinity on the soil microbial community and soil fertility. J Integr Agric 18:1360–1368. Zhang X, Lu S, Wang C, Zhang A, Wang X (2021b) Optimization of tillage rotation and fertilization increased the soil organic carbon pool and crop yield in a semiarid region. Land Degrad Dev 32:5241–5252. Zhang Z, Liu H, Liu X, Chen Y, Lu Y, Shen M, Dang K, Zhao Y, Dong Y, Li Q, Li J (2022) Organic fertilizer enhances rice growth in severe saline–alkali soil by increasing soil bacterial diversity. Soil Use Manag 38:964–977. Zhao Q, Bai J, Gao Y, Zhao H, Zhang G, Cui B (2020a) Shifts in the soil bacterial community along a salinity gradient in the Yellow River Delta. Land Degrad Dev 31:2255–2267. Zhao Z, He JZ, Quan Z, Wu C, Sheng R, Zhang LM, Geisen S (2020b) Fertilization changes soil microbiome functioning, especially phagotrophic protists. Soil Biol Biochem 148:107863. Zheng H, Wang Z, Deng X, Zhao J, Luo Y, Novak J, Herbert S, Xing B (2013) Characteristics and nutrient values of biochars produced from giant reed at different temperatures. Bioresour Technol 130:463–471. Zhou H, Chen C, Wang D, Arthur E, Zhang Z, Guo Z, Peng X, Mooney SJ (2020a) Effect of long-term organic amendments on the full-range soil water retention characteristics of a Vertisol. Soil Tillage Res 202:104663. Zhou W, Han G, Liu M, Zeng J, Liang B, Liu J, Qu R (2020b) Determining the distribution and interaction of soil organic carbon, nitrogen, pH and texture in soil profiles: a case study in the Lancangjiang River Basin, Southwest China. Forests 11:532. Zogg GP, Zak DR, Ringelberg DB, White DC, MacDonald NW, Pregitzer KS (1997) Compositional and functional shifts in microbial communities due to soil warming. Soil Sci Soc Am J 61:475–481.
فهرسة مساهمة:	Keywords: Crop production; PGPR; Rhizosphere; SOC; Soil health; Soil microbial diversity
المشرفين على المادة:	0 (Soil) 7440-44-0 (Carbon) 451W47IQ8X (Sodium Chloride) 0 (Sodium Chloride, Dietary)
تواريخ الأحداث:	Date Created: 20231004 Date Completed: 20231108 Latest Revision: 20231117
رمز التحديث:	20231117
DOI:	10.1007/s11356-023-30143-1
PMID:	37792186
قاعدة البيانات:	MEDLINE

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تدمد:	1614-7499
DOI:	10.1007/s11356-023-30143-1