Rakshapal Singh
About
Rakshapal Singh is a scholar working on Plant Science, Health, Toxicology and Mutagenesis and Soil Science.
According to data from OpenAlex, Rakshapal Singh has authored 26 papers receiving a total of 810 indexed citations (citations by other indexed papers that have themselves been cited), including 18 papers in Plant Science, 5 papers in Health, Toxicology and Mutagenesis and 4 papers in Soil Science. Recurrent topics in Rakshapal Singh's work include Mycorrhizal Fungi and Plant Interactions (9 papers), Plant-Microbe Interactions and Immunity (7 papers) and Chromium effects and bioremediation (5 papers). Rakshapal Singh is often cited by papers focused on Mycorrhizal Fungi and Plant Interactions (9 papers), Plant-Microbe Interactions and Immunity (7 papers) and Chromium effects and bioremediation (5 papers). Rakshapal Singh collaborates with scholars based in India and Israel. Rakshapal Singh's co-authors include Alok Kalra, Sumit K. Soni, Ashutosh Awasthi, E. V. S. Prakasa Rao, K. Puttanna, Rajesh Kumar Verma, Sudeep Tiwari, R.K. Lal, B. R. Rajeswara Rao and Rashmi Singh and has published in prestigious journals such as Scientific Reports, The ISME Journal and Environmental Science and Pollution Research.
In The Last Decade
Rakshapal Singh
26 papers receiving 785 citations
Peers — A (Enhanced Table)
Peers by citation overlap · career bar shows stage (early→late) cites · hero ref
| Name | h | Career | Trend | Papers | Cites | |||||
|---|---|---|---|---|---|---|---|---|---|---|
| Rakshapal Singh India | 16 | 455 | 155 | 135 | 111 | 109 | 26 | 810 | ||
| Ashutosh Awasthi India | 15 | 474 1.0× | 141 0.9× | 194 1.4× | 95 0.9× | 43 0.4× | 21 | 839 | ||
| José Antônio Saraiva Grossi Brazil | 15 | 770 1.7× | 88 0.6× | 103 0.8× | 126 1.1× | 77 0.7× | 96 | 1.1k | ||
| Ryota Kataoka Japan | 21 | 474 1.0× | 136 0.9× | 132 1.0× | 107 1.0× | 39 0.4× | 55 | 925 | ||
| Anas Raklami Morocco | 18 | 931 2.0× | 67 0.4× | 135 1.0× | 200 1.8× | 46 0.4× | 33 | 1.2k | ||
| Vanessa Nessner Kavamura Brazil | 13 | 716 1.6× | 72 0.5× | 229 1.7× | 181 1.6× | 54 0.5× | 28 | 1.1k | ||
| Clem Kuek Australia | 11 | 608 1.3× | 90 0.6× | 119 0.9× | 61 0.5× | 84 0.8× | 14 | 1.1k | ||
| Abdul Hameed Pakistan | 20 | 834 1.8× | 51 0.3× | 202 1.5× | 41 0.4× | 73 0.7× | 68 | 1.2k | ||
| Rupa Rani India | 16 | 376 0.8× | 107 0.7× | 89 0.7× | 58 0.5× | 42 0.4× | 24 | 690 | ||
| Mingyuan Wang China | 19 | 483 1.1× | 137 0.9× | 104 0.8× | 51 0.5× | 40 0.4× | 46 | 1.0k | ||
| Rubee Devi India | 18 | 736 1.6× | 55 0.4× | 222 1.6× | 121 1.1× | 35 0.3× | 34 | 1.1k |
Countries citing papers authored by Rakshapal Singh
Since
Specialization
Citations
This map shows the geographic impact of Rakshapal Singh's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Rakshapal Singh with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Rakshapal Singh more than expected).
Fields of papers citing papers by Rakshapal Singh
Since
Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences
This network shows the impact of papers produced by Rakshapal Singh. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Rakshapal Singh. The network helps show where Rakshapal Singh may publish in the future.
Co-authorship network of co-authors of Rakshapal Singh
This figure shows the co-authorship network connecting the top 25 collaborators of Rakshapal Singh. A scholar is included among the top collaborators of Rakshapal Singh based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Rakshapal Singh. Rakshapal Singh is excluded from the visualization to improve readability, since they are connected to all nodes in the network.
All Works
1.
Singh, Rakshapal, Sumit K. Soni, & Anju Bajpai. (2023). Cooperative interaction of Glomus intraradices with plant growth-promoting rhizobacteria promotes plant development and essential oil yield of Pogostemon cablin and reduces disease occurrence under organic field conditions. Australasian Plant Pathology. 52(6). 595–607.
2.
Soni, Sumit K., Rakshapal Singh, & Sudeep Tiwari. (2022). Management of chromium(VI)-contaminated soils through synergistic application of vermicompost, chromate reducing rhizobacteria and Arbuscular mycorrhizal fungi (AMF) reduced plant toxicity and improved yield attributes in Ocimum basilicum L.. Archives of Microbiology. 204(10). 614–614.
3.
Soni, Sumit K., et al.. (2022). Hexavalent chromium-reducing plant growth-promoting rhizobacteria are utilized to bio-fortify trivalent chromium in fenugreek by promoting plant development and decreasing the toxicity of hexavalent chromium in the soil. Journal of Trace Elements in Medicine and Biology. 76. 127116–127116.
4.
Soni, Sumit K., Rakshapal Singh, Abhishek Niranjan, et al.. (2021). Isolation and characterization of endophytic fungi having plant growth promotion traits that biosynthesizes bacosides and withanolides under in vitro conditions. Brazilian Journal of Microbiology. 52(4). 1791–1805.
5.
Singh, Rakshapal, et al.. (2018). Genetic variability of agronomic traits and biodiversity in the genus Ocimum. 2(2). 103–110.
6.
Singh, Rakshapal, et al.. (2018). Bioinoculant coated seed improved the growth and yield of Withania somnifera (L.) Dunal. Medicinal Plants - International Journal of Phytomedicines and Related Industries. 10(3). 191–191.
7.
Singh, Rakshapal, et al.. (2018). Bioinoculants and AM fungus colonized nursery improved management of complex root disease of Coleus forskohlii Briq. under field conditions. Biological Control. 122. 11–17.
8.
Singh, Rakshapal, et al.. (2016). Differential response of genotype × environment on phenology, essential oil yield and quality of natural aroma chemicals of five Ocimum species. Industrial Crops and Products. 87. 210–217.
9.
Awasthi, Ashutosh, et al.. (2015). Complementarity among plant growth promoting traits in rhizospheric bacterial communities promotes plant growth. Scientific Reports. 5(1). 15500–15500.
10.
Singh, Rakshapal, et al.. (2015). Phenotypic characterization and stability analysis for biomass and essential oil yields of fifteen genotypes of five Ocimum species. Industrial Crops and Products. 77. 21–29.
11.
Soni, Sumit K., et al.. (2014). Pretreatment of Cr(VI)-Amended Soil With Chromate-Reducing Rhizobacteria Decreases Plant Toxicity and Increases the Yield of Pisum sativum. Archives of Environmental Contamination and Toxicology. 66(4). 616–627.
12.
Soni, Sumit K., Rakshapal Singh, Ashutosh Awasthi, & Alok Kalra. (2013). A Cr(VI)-reducing Microbacterium sp. strain SUCR140 enhances growth and yield of Zea mays in Cr(VI) amended soil through reduced chromium toxicity and improves colonization of arbuscular mycorrhizal fungi. Environmental Science and Pollution Research. 21(3). 1971–1979.
13.
Singh, Rakshapal, et al.. (2013). Vermicompost from biodegraded distillation waste improves soil properties and essential oil yield of Pogostemon cablin (patchouli) Benth. Applied Soil Ecology. 70. 48–56.
14.
Singh, Rakshapal, et al.. (2013). Technology for improving essential oil yield of Ocimum basilicum L. (sweet basil) by application of bioinoculant colonized seeds under organic field conditions. Industrial Crops and Products. 45. 335–342.
15.
Soni, Sumit K., et al.. (2012). In vitro Cr(VI) reduction by cell-free extracts of chromate-reducing bacteria isolated from tannery effluent irrigated soil. Environmental Science and Pollution Research. 20(3). 1661–1674.
16.
Singh, Rakshapal, Sumit K. Soni, & Alok Kalra. (2012). Synergy between Glomus fasciculatum and a beneficial Pseudomonas in reducing root diseases and improving yield and forskolin content in Coleus forskohlii Briq. under organic field conditions. Mycorrhiza. 23(1). 35–44.
17.
Singh, Rakshapal, et al.. (2011). Technology for efficient and successful delivery of vermicompost colonized bioinoculants in Pogostemon cablin (patchouli) Benth.. World Journal of Microbiology and Biotechnology. 28(1). 323–333.
18.
Singh, Rakshapal, et al.. (2011). Medicinal plantColeus forskohliiBriq.: Disease and management. Medicinal Plants - International Journal of Phytomedicines and Related Industries. 3(1). 1–1.
19.
Puttanna, K., et al.. (2010). Effect of organic and inorganic fertilizers and Trichoderma harzianum on patchouli (Pogostemon cablin) herb yield.. Journal of Medicinal and Aromatic Plant Sciences. 32(1). 50–52.
20.
Singh, Rakshapal, E. V. S. Prakasa Rao, K. Puttanna, et al.. (2009). Effect of arbuscular mycorrhizal fungi andPseudomonas fluorescenson root-rot and wilt, growth and yield ofColeus forskohlii. Biocontrol Science and Technology. 19(8). 835–841.
Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.
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