Dr. Izhar Ali

Email address: izharali48@gmail.com,   Mobile: (+86) 15578064260 |

Current Address: Guangxi Key Laboratory of Forest Ecology and Conservation, College of Forestry, Guangxi University,Nanning 530004, China

Brief Biography

Dr. Izhar Ali is an accomplished researcher with a robust academic and professional background in agriculture and forestry sciences. He currently serves as an Associate Researcher at the College of Forestry, Guangxi University, Nanning, China.

Dr. Ali earned his PhD in Agriculture and Cropping Technology, with a specialization in crop cultivation and farming systems. His doctoral research centered on enhancing cereal crop grain yield and quality, improving soil health sustainably, and minimizing environmental impacts. His key research areas during his PhD included biochar application, rice physiology, grain quality, soil quality and stabilization, soil organic carbon stocks, waste management, and greenhouse gas emissions.

After completing his PhD, Dr. Ali contributed as a Postdoctoral Research Fellow at Guangxi University for two years (2021–2022) in the College of Agriculture and subsequently for another two years (2022–2024) in the College of Forestry. In his postdoctoral roles, he expanded his research to encompass agroforestry, soil health analysis (including physicochemical, biochemical, and microbial properties), medicinal plant research, phosphorus stress management, forest management practices, and carbon sequestration. 

Education

  • PhD in Crop Science-Crop Cultivation and Farming System)(2017-2020).
    • Guangxi University, College of Agriculture China
  • MSc (Hons) Agriculture Agronomy (2014-16)
    • The University of Agriculture Peshawar, Peshawar (Pakistan)
  • BSc (Hons) Agriculture Agronomy (2009-13)
    • The University of Agriculture Peshawar, Peshawar (Pakistan)

Verified Reviews for International Journals

Publications

1st Authorship

  1. Ali, I., Wu, T., Chen, K., Ullah, S., Xu, Y., & Yang, M. (2024). Analysis of physiological response and differential protein expression of Paramichelia baillonii saplings under phosphorus deficiency. Physiologia Plantarum, 176(2), e14225.区2
  2. Ali, I.,He, L., Ullah, S., Quan, Z., Wei, S., Iqbal, A., Munsif, F., Shah, T., Xuan, Y., Luo, Y. and Tianyuan, L., 2020. Biochar addition coupled with nitrogen fertilization impacts on soil quality, crop productivity, and nitrogen uptake under double‐cropping system. Food and Energy Security, 9(3), p.e208. (IF:4.6) (区1 during 2020)
  3. Ali, I.,Iqbal, A., Ullah, S., Muhammad, I., Yuan, P., Zhao, Q., Yang, M., Zhang, H., Huang, M., Liang, H. and Gu, M., 2022. Effects of Biochar Amendment and Nitrogen Fertilizer on RVA Profile and Rice Grain Quality Attributes. Foods, 11(5), p.625. (IF 5.5) 区1
  4. Ali, I.,Adnan, M., Ullah, S., Zhao, Q., Iqbal, A., He, L., Cheng, F., Muhammad, I., Ahmad, S., Wei, S. and Jiang, L., 2022. Biochar combined with nitrogen fertilizer: a practical approach for increasing the biomass digestibility and yield of rice and promoting food and energy security. Biofuels, Bioproducts and Biorefining. (IF: 5.2) 区2
  5. Ali, I.,Yuan, P., Ullah, S., Iqbal, A., Zhao, Q., Liang, H., Khan, A., Zhang, H., Wu, X., Wei, S. and Gu, M., 2022. Biochar Amendment and Nitrogen Fertilizer Contribute to the Changes in Soil Properties and Microbial Communities in a Paddy Field. Frontiers in microbiology, 13, pp.834751-834751. (IF: 6.06) 区2
  6. Ali I, Adnan M, Iqbal A, Ullah S, Khan MR, Yuan P, Zhang H, Nasar J, Gu M, Jiang L. Effects of Biochar and Nitrogen Application on Rice Biomass Saccharification, Bioethanol Yield and Cell Wall Polymers Features. International Journal of Molecular Sciences. 2022; 23(21):13635. (IF: 6.2)区2
  7. Ali, I., Ullah, S., Iqbal, A., Quan, Z., Liang, H., Ahmad, S., Muhammad, I., Guo, Z., Wei, S. and Jiang, L., 2021. Combined application of biochar and nitrogen fertilizer promotes the activity of starch metabolism enzymes and the expression of related genes in rice in a dual cropping system. BMC plant biology, 21(1), pp.1-15. (IF:5.26) 区2
  8. Ali, I.,Zhao, Q., Wu, K., Ullah, S., Iqbal, A., Liang, H., Zhang, J., Muhammad, I., Khan, A., Khan, A.A. and Jiang, L., 2021. Biochar in combination with nitrogen fertilizer is a technique: to enhance physiological and morphological traits of Rice (Oryza sativa L.) by improving soil physio-biochemical properties. Journal of Plant Growth Regulation, pp.1-15. (IF: 4.6) 区3
  9. Ali, I.,Ullah, S., He, L., Zhao, Q., Iqbal, A., Wei, S., Shah, T., Ali, N., Bo, Y., Adnan, M. and Jiang, L., 2020. Combined application of biochar and nitrogen fertilizer improves rice yield, microbial activity and N-metabolism in a pot experiment. PeerJ, 8, p.e10311. (IF: 3.0) 区3
  10. Ali, I.,Khan, A.A., Munsif, F., He, L., Khan, A., Ullah, S., Saeed, W., Iqbal, A., Adnan, M. and Ligeng, J., 2019. Optimizing rates and application time of potassium fertilizer for improving growth, grain nutrients content and yield of wheat crop. Open Agriculture, 4(1), pp.500-508. (IF: 0.45)区4
  11. Ali, I.,Khan, A.A., Khan, A., Asim, M., Ali, I., Zib, B., Khan, I., Rab, A., Sadiq, G., Ahmad, N. and Iqbal, B., 2019. Humic acid and nitrogen levels optimizing productivity of green gram (Vigna radiate L.). Russian Agricultural Sciences, 45(1), pp.43-47. (IF: 0.11)
  12. Ali, I.et al.,  Responses of Methane and Nitrous Oxide Emissions and Soil Methanogenic Community Composition to Biochar and Nitrogen Fertilizer in Rice Fields. Environmental Science and Techonology. (IF: 6.0)区 under review
  13. Ali, I.et al.,  Impacts of Long-Term Thinning and Mixed Plantation Practices of Broadleaf Trees on Soil Carbon, Nitrogen Dynamics and Microbial Function in Eucalyptus Forests. European Journal of Forest Research (IF: 2.43)区 under review
  14. Ali, I.et al., Sustainable Use of Lanthanum and Cerium Rare Earth Elements in Enhancing the Paramichelia Baillonii Growth, Physiology, Root Attributes, and Biochemical Responses. BMC Plant Biology. (IF: 4.3)区 under review
  15. Ali, I.et al., Updates on Antimony Heavy Metal Toxicity in Agriculture and the Possible Role of Biochar as a Remediator. Ecotoxicology and Environmental Safety. (IF: 8.2)区 under review

 

Equal first author publication

 

  1. Wu, K., Ali, I.,Xie, H., Ullah, S., Iqbal, A., Wei, S., He, L., Huang, Q., Wu, X., Cheng, F. and Jiang, L., 2021. Impact of fertilization with reducing in nitrogen and phosphorous application on growth, yield and biomass accumulation of rice (Oryza sativa L.) under a dual cropping system. PeerJ, 9, p.e11668. (IF: 3.0)区3
  2. Li W, Ali I, Han X, Ullah S, Yang M. Soil C, N, P, K and Enzymes Stoichiometry of an Endangered Tree Species, Parashorea chinensis of Different Stand Ages Unveiled Soil Nutrient Limitation Factors. Forests. 2023; 14(3):624. (IF. 3.28) 区2
  3. Ullah, S., Zhao, Q., Wu, K., Ali, I.,Liang, H., Iqbal, A., Wei, S., Cheng, F., Ahmad, S., Jiang, L. and Gillani, S.W., 2021. Biochar application to rice with 15N-labelled fertilizers, enhanced leaf nitrogen concentration and assimilation by improving morpho-physiological traits and soil quality. Saudi Journal of Biological Sciences, 28(6), pp.3399-3413.  (IF: 4.05)区3
  4. Iqbal, A., Xie, H., He, L., Ahmad, S., Hussain, I., Raza, H., Khan, A., Wei, S., Quan, Z., Wu, K. and Ali, I.,Partial substitution of organic nitrogen with synthetic nitrogen enhances rice yield, grain starch metabolism and related genes expression under the dual cropping system. Saudi Journal of Biological Sciences, 28(2), pp.1283-1296. (IF. 4.05) 区3
  5. Ullah, S., Ali, I., Yang, M., Zhao, Q., Iqbal, A., Wu, X.,  & Jiang, L. (2023). Partial substitution of urea with biochar induced improvements in soil enzymes activity, ammonia-nitrite oxidizers, and nitrogen uptake in the double-cropping rice system. Microorganisms, 11(2), 527.(IF. 4.4) 区2

 

Co-author publications

  1. Chen, L., Ali,, Li, T., Xu, Y., & Yang, M. (2024). Cadmium exposure on physiological responses of Erythrophleum fordii seedlings: A comparative study. Industrial Crops and Products, 219, 119050.区1
  2. Li, X., Zhang, R., Chen, G., Xie, J., Xiao, Z., Cao, F.,Ali, I.,Chen, J. (2023). Increasing grain weight and yield stability by increasing pre-heading non-structural carbohydrate reserves per spikelet in short-growth duration rice. The Crop Journal.区1
  3. Ullah, S., Han, X., Ali, I., Li, W., Wu, T., Xu, Y., & Yang, M. (2024). Ecological impacts of diversified agroforestry on soil nutrients and bacterial communities in Pinus massoniana plantations in the southern subtropics. Industrial Crops and Products, 222(4), 119933.区1
  4. Iqbal, A., Ali, I.,Zhao, Q., Yuan, P., Huang, M., Liang, H., Zeeshan, M., Muhammad, I., Wei, S. and Jiang, L., 2022. Effect of Integrated Organic–Inorganic Amendments on Leaf Physiological and Grain Starch Viscosity (Rapid Visco-Analyzer Profile) Characteristics of Rice and Ultisols Soil Quality. Agronomy, 12(4), p.863. (IF. 3.9)  区2
  5. Wu, X., Ali, I.,Iqbal, A., Ullah, S., Yuan, P., Xu, A., Xie, D., Zhou, Y., Long, X., Zhang, H. and Yu, J., 2022. Allometric Characteristics of Rice Seedlings under Different Transplanted Hills and Row Spacing: Impacts on Nitrogen Use Efficiency and Yield. Plants, 11(19), p.2508.(IF. 3.9)  区2 
  6. Cheng, F., Bin, S., Iqbal, A., He, L., Wei, S., Zheng, H., Yuan, P., Liang, H., Ali, I., Xie, D. and Yang, X., 2022. High Sink Capacity Improves Rice Grain Yield by Promoting Nitrogen and Dry Matter Accumulation. Agronomy, 12(7), p.1688.(IF. 3.9)  区2
  7. Iqbal, A., Ali, I.,Yuan, P., Khan, R., Liang, H., Wei, S. and Jiang, L., 2022. Combined Application of Manure and Chemical Fertilizers Alters Soil Environmental Variables and Improves Soil Fungal Community Composition and Rice Grain Yield. Frontiers in Microbiology, p.2481. (IF: 6.06) 区2
  8. Ali, N., Lin, Y., Jiang, L., Ali, I.,Ahmed, I., Akhtar, K., He, B. and Wen, R., 2022. Biochar and Manure Applications Differentially Altered the Class 1 Integrons, Antimicrobial Resistance, and Gene Cassettes Diversity in Paddy Soils. Frontiers in Microbiology, 13. (IF: 6.06)  区
  9. Iqbal, A., He, L., Ali, I.,Yuan, P., Khan, A., Hua, Z., Wei, S. and Jiang, L., 2022. Partial substation of organic fertilizer with chemical fertilizer improves soil biochemical attributes, rice yields, and restores bacterial community diversity in a paddy field. Frontiers in Plant Science, 13. (IF: 6.6)区2
  10. Ullah, S., Liang, H., Ali, I.,Zhao, Q., Iqbal, A., Wei, S., Shah, T., Yan, B. and Jiang, L., 2020. Biochar coupled with contrasting nitrogen sources mediated changes in carbon and nitrogen pools, microbial and enzymatic activity in paddy soil. Journal of Saudi Chemical Society, 24(11), pp.835-849. (IF: 4.7) 区3
  11. Muhammad, I., Yang, L., Ahmad, S., Zeeshan, M., Farooq, S., Ali, I., Khan, A. and Zhou, X.B., 2022. Irrigation and nitrogen fertilization alter soil bacterial communities, soil enzyme activities, and nutrient availability in maize crop. Frontiers in microbiology, p.105. (IF: 6.06)   区2
  12. Iqbal, A., Liang, H., McBride, S.G., Yuan, P., Ali, I.,Zaman, M., Zeeshan, M., Khan, R., Akhtar, K., Wei, S. and Guo, Z., 2022. Manure applications combined with chemical fertilizer improves soil functionality, microbial biomass and rice production in a paddy field. Agronomy Journal, 114(2), pp.1431-1446.  (IF: 2.65)区2
  13. Ullah, S., Ali, I.,Liang, H., Zhao, Q., Wei, S., Muhammad, I., Huang, M., Ali, N. and Jiang, L., 2021. An approach to sustainable agriculture by untangling the fate of contrasting nitrogen sources in double‐season rice grown with and without biochar. GCB Bioenergy, 13(3), pp.382-392. (9) 区2
  14. Iqbal, A., He, L., Ali, I.,Ullah, S., Khan, A., Akhtar, K., Wei, S., Fahad, S., Khan, R. and Jiang, L., 2021. Co-incorporation of manure and inorganic fertilizer improves leaf physiological traits, rice production and soil functionality in a paddy field. Scientific Reports, 11(1), pp.1-16. (I.F: 4.99) 区2  
  15. Iqbal, A., He, L., Ali, I.,Ullah, S., Khan, A., Khan, A., Akhtar, K., Wei, S., Zhao, Q., Zhang, J. and Jiang, L., 2020. Manure combined with chemical fertilizer increases rice productivity by improving soil health, post-anthesis biomass yield, and nitrogen metabolism. Plos one, 15(10), p.e0238934. (I.F: 3.77) 区3
  16. Iqbal, A., He, L., Khan, A., Wei, S., Akhtar, K., Ali, I., Ullah, S., Munsif, F., Zhao, Q. and Jiang, L., 2019. Organic manure coupled with inorganic fertilizer: An approach for the sustainable production of rice by improving soil properties and nitrogen use efficiency. Agronomy, 9(10), p.651. (IF: 3.9) 区2
  17. Ali, N., Lin, Y., Qing, Z., Xiao, D., Ud Din, A., Ali, I.,Lian, T., Chen, B. and Wen, R., 2020. The role of agriculture in the dissemination of class 1 integrons, antimicrobial resistance, and diversity of their gene cassettes in Southern China. Genes, 11(9), p.1014. (IF 4.1) 区3
  18. Munsif, F., Kong, X., Khan, A., Shah, T., Arif, M., Jahangir, M., Akhtar, K.,  Ali, I.,Tang, D., Zheng, J., Liao, X. and Faisal, S., 2021. Identification of differentially expressed genes and pathways in isonuclear kenaf genotypes under salt stress. Physiologia Plantarum, 173(4), pp.1295-1308. (IF: 5.08) 区3
  19. Xuan, Y., Yi, Y., Liang, H.E., Wei, S., Chen, N., Jiang, L., Ali, I.,Ullah, S., Wu, X., Cao, T. and Zhao, Q., 2020. Amylose content and RVA profile characteristics of noodle rice under different conditions. Agronomy Journal, 112(1), pp.117-129. (IF 2.6) 区2
  20. Li, T., Ullah, S., He, L., Ali, I.,Zhao, Q., Iqbal, A., Wei, S., Shah, T., Luo, Y. and Jiang, L., 2021. The enhancement of soil fertility, dry matter transport and accumulation, nitrogen uptake and yield in rice via green manuring. Phyton, 90(1), p.223. (IF: 1.4) 区4
  21. Luo, Y., Iqbal, A., He, L., Zhao, Q., Wei, S., Ali, I., Ullah, S., Yan, B. and Jiang, L., 2020. Long-term no-tillage and straw retention management enhances soil bacterial community diversity and soil properties in Southern China. Agronomy, 10(9), p.1233. (I.F 3.9) 区2
  22. Zhao, Q., Hao, X., Ali, I., Iqbal, A., Ullah, S., Huang, M., Kong, F., Li, T., Xuan, Y., Li, F. and Yan, B., 2020. Characterization and grouping of all primary branches at various positions on a rice panicle based on grain growth dynamics. Agronomy, 10(2), p.223. (IF: 3.9) 区2
  23. Muhammad, I., Wang, J., Khan, A., Ahmad, S., Yang, L.,Ali, I.,Zeeshan, M., Ullah, S., Fahad, S., Ali, S. and Zhou, X.B., 2021. Impact of the mixture verses solo residue management and climatic conditions on soil microbial biomass carbon to nitrogen ratio: a systematic review. Environmental Science and Pollution Research, 28(45), pp.64241-64252. (IF: 5.19) 区3
  24. Ahmad, S., Muhammad, I., Wang, G.Y., Zeeshan, M., Yang, L., Ali, I., and Zhou, X.B., 2021. Ameliorative effect of melatonin improves drought tolerance by regulating growth, photosynthetic traits and leaf ultrastructure of maize seedlings. BMC Plant Biology, 21(1), pp.1-14. IF: 5.26 区3
  25. Amanullah, Yar, M., Khalid, S., Elshikh, M.S., Akram, H.M., Imran, Al-Tawaha, A.R.M., Ahmad, M., Muhammad, A., Ullah, S. andAli, I., Phenology, growth, productivity, and profitability of mungbean as affected by potassium and organic matter under water stress vs. no water stress conditions. Journal of Plant Nutrition, 45(5), pp.629-650. IF: 2.27. 区4
  26. Alwahibi, M.S., Elshikh, M.S., Alkahtani, J., Muhammad, A., Khalid, S., Ahmad, M., Khan, N., Ullah, S. and Ali, I.,Phosphorus and zinc fertilization improve zinc biofortification in grains and straw of coarse vs. fine rice genotypes. Agronomy, 10(8), p.1155. IF: 3.9. 区2
  27. Amanullah, Ilyas, M., Nabi, H., Khalid, S., Ahmad, M., Muhammad, A., Ullah, S., Ali, I., Fahad, S., Adnan, M. and Elshikh, M.S., 2021. Integrated foliar nutrients application improve wheat (Triticum Aestivum L.) productivity under calcareous soils in drylands. Communications in Soil Science and Plant Analysis, 52(21), pp.2748-2766. (IF:1.58). 区4
  28. Zhang, J., Li, F., Liao, P., Khan, A., Hussain, I., Iqbal, A., Ali, I., Wei, B. and Jiang, L., 2021. Smash ridge tillage strongly influence soil functionality, physiology and rice yield. Saudi Journal of Biological Sciences, 28(2), pp.1297-1307. (IF. 4.05) 区3
  29. Shah, T., Latif, S., Saeed, F., Ali, I., Ullah, S., Alsahli, A.A., Jan, S. and Ahmad, P., 2021. Seed priming with titanium dioxide nanoparticles enhances seed vigor, leaf water status, and antioxidant enzyme activities in maize (Zea mays L.) under salinity stress. Journal of King Saud University-Science, 33(1), p.101207. (IF; 3.8) 区2
  30. Xie, H., Wu, K., Iqbal, A., Ali, I., He, L., Ullah, S., Wei, S., Zhao, Q., Wu, X., Huang, Q. and Jiang, L., 2021. Synthetic nitrogen coupled with seaweed extract and microbial inoculants improves rice (Oryza sativa L.) production under a dual cropping system. Italian Journal of Agronomy, 16(2).. (IF:1.6) 区2
  31. Song Y, Zhao Q, Guo X,Ali I,Li F, Lin Sand Liu D. 2022. Effects of biochar and organic-inorganic fertilizer on pomelo orchard soil properties, enzymes activities, and microbial community structure. Frontiers in microbiology, 13, pp.834751-834751. (IF: 6.06) 区2
  32. Nasar, J., Wang, G.Y., Zhou, F.J., Gitari, H. Ali, I.Zhou, X.B., Nitrogen fertilization coupled with foliar application of iron and molybdenum improves the shade tolerance of soybean under maize-soybean intercropping. Frontiers in Plant Science, p.3869. 区2
  33. Ahmad, R. Gao, J.Gao, Z. Khan, A. Ali, I.Fahad, S. Influence of Biochar on Soil Nutrients and Associated Rhizobacterial Communities of Mountainous Apple Trees in Northern Loess Plateau China. Microorganisms 2022, 10, 2078.  (IF. 4.92) 区2
  34. Ahmad, R., Gao, J., Li, W., Zhang, Y., Gao, Z., Khan, A.,Ali, I., Fahad, S. (2023). Response of soil nutrients, enzyme activities, and fungal communities to biochar availability in the rhizosphere of mountainous apple trees. Plant and Soil, 1-17.(IF. 4.99) 区2
  35. Khan, A., Wei, Y., Adnan, M., Ali, I.,& Zhang, M. (2023). Dynamics of rhizosphere bacterial communities and soil physiochemical properties in response to consecutive ratooning of sugarcane. Frontiers in Microbiology, 14. (IF: 6.06) 区2
  36. Iqbal, A., Tang, X.,Ali, I., Yuan, P., Khan, R., Khan, Z., ... & Jiang, L. (2023). Integrating low levels of organic fertilizer improves soil fertility and rice yields in paddy fields by influencing microbial communities without increasing CH4 emissions. Applied Soil Ecology, 189, 104951.区2
  37. Zhu, H., Wen, T., Sun, M., Ali, I.,Sheteiwy, M. S., Wahab, A., ... & Wang, X. (2023). Enhancing Rice Yield and Nitrogen Utilization Efficiency through Optimal Planting Density and Reduced Nitrogen Rates. Agronomy, 13(5), 1387. 区2
  38. Xiao, X., Ali, I.,Du, X., Xu, Y., Ye, S., & Yang, M. (2023). Thinning Promotes Soil Phosphorus Bioavailability in Short-Rotation and High-Density Eucalyptus grandis× E. urophylla Coppice Plantation in Guangxi, Southern China. Forests, 14(10), 2067.区2
  39. Ma, D., Guo, Y., Ali,, Lin, J., Xu, Y., & Yang, M. (2024). Accumulation characteristics of plant flavonoids and effects of cultivation measures on their biosynthesis: A Review. Plant Physiology and Biochemistry, 108960.区2
  40. Ullah, S., Liao, C., Xu, Y., Li, W., Ali, I., Han, X., ... & Yang, M. (2024). Phenolic Acid Concentration and Adsorption in the Soil of Monoculture Eucalyptus and Acacia Mangium Plantations Versus Species Mixtures in Subtropical Forests. Journal of Soil Science and Plant Nutrition, 1-12.区2
  41. Ullah, S., Liu, F., Xie, L., Liao, S., Li, W., Ali, I., ... & Xu, Y. (2024). Autumnal Potassium Induced Modulations in Plant Osmoprotectant Substances, Nutrient Stoichiometry and Precision Sustainable Seedling Cultivation in Parashorea chinensis. Forests, 15(2), 310.区2
  42. Xie, J., Xiao, Z., Li, X., Cao, F., Chen, J., Ali, I., ... & Huang, M. (2024). Stability differences of quality traits in high-quality hybrid rice. Journal of Agriculture and Food Research, 101346.区2
  43. Zhang H, Hui G, Gao G, Ali I,Tang M, Chen L, Zhong X, Jiang L, Liang T, Zhang X. Physiological and Proteomic Analysis of Various Priming on Rice Seed under Chilling Stress. Plants. 2024; 13(17):2430. 区2
  44. Ma, D., Yi, B., Teng, W.Ali I,et al. Growth, physiological and N, P, K accumulation responses of Erythropalum scandens Bl. Seedlings under different substrates. BMC plant biology, 24, 972 (2024). 区2
  45. Xu, Y., Liu, S., Finnegan, P. M., Liu, F., Ali, I., Zhang, H., & Yang, M. (2024). Geographical variation and genetic diversity of Parashorea chinensis germplasm resources. Frontiers in Plant Science, 15, 1452521.区2
  46. Ullah, S., Han, X., Deng, R., Ali, I., Li, W., Xu, Y., & Yang, M. (2024). Impacts of shifting from single-species pine forests to distinct agroforestry models on soil fertility, exchangeable cations, and microbial functions. Journal of Environmental Management, 370, 122823.区2
  47. Amanullah, Khalid, S., Muhammad, A., Yar, M., Ahmad, M., Akram, H.M., Imran, Al-Tawaha, A.R.M., Ullah, S., Ali, I. and Fahad, S. 2021. Integrated use of biofertlizers with organic and inorganic phosphorus sources improve dry matter partitioning and yield of hybrid maize. Communications in Soil Science and Plant Analysis, 52(21), pp.2732-2747. (IF: 1.58)区3
  48. , Hussain, I., Ali, I., Ullah, S., Iqbal, A., Tawaha, A.A., Al-Tawaha, A.R., Thangadurai, D., Sangeetha, J., Rauf, A., Saranraj, P. and Al Sultan, W., 2021, June. Agricultural soil reclamation and restoration of soil organic matter and nutrients via application of organic, inorganic and bio fertilization (Mini review). In IOP Conference Series: Earth and Environmental Science (Vol. 788, No. 1, p. 012165). IOP Publishing..
  49. , Naveed, S., Khan, I., Sajid, M., Mahmood, T., Hussain, I., Ilyas, M., Ali, I., Ullah, S., Kamal, A., Altawaha, A.R. and Al-Tawaha, A.R., 2021, June. Relationship of soil physico chemical properties with elevation and geographical directions. In IOP Conference Series: Earth and Environmental Science (Vol. 788, No. 1, p. 012172). IOP Publishing
  50. Xuan, Y., Yi, Y., Liang, H., Wei, S., Jiang, L., Ali, I.,Ullah, S. and Zhao, Q., 2019. Effects of meteorological factors on the yield and quality of special rice in different periods after anthesis. Agricultural Sciences, 10(4), pp.451-475. (Chinese journal).

Book Chapter Published

  1. Iqbal, A., Shafi, M. I., Rafique, , & Jiang, L. (2023). Biofertilizers to Improve Soil Health and Crop Yields. In Sustainable Agriculture Reviews 61: Biochar to Improve Crop Production and Decrease Plant Stress under a Changing Climate (pp. 247-272). Cham: Springer International Publishing.
  2. Iqbal, A., Shafi, M. I., Rafique, M., Zaman, M., Ali, I.,Jabeen, A., ... & Jiang, L. (2023). Approaches for Using Bio-fertilizers as a Substitute for Chemical Fertilizers to Improve Soil Health and Crop Yields in Pakistan. In Biofertilizers for Sustainable Soil Management (pp. 89-118). CRC Press
  3. Ullah, S., Ali, I., Jiang, L., & Yang, M. (2024). Environmental benefits of biochar under changing climate: biochar, a new technology for restoring contaminated and degraded soils. In Biochar-assisted Remediation of Contaminated Soils Under Changing Climate (pp. 353-376). Elsevier.