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Hanna Szajsner, Przemysław Bąbelewski, Anna Koszelnik-Leszek & Magdalena Kuryś. (2023) Conditioning of Scots pine (Pinus sylvestris L.) sowing material. Scandinavian Journal of Forest Research 38:1-2, pages 1-8.
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Zahurul Amin & Sazzad Bin Sharif. (2022) Use of integration to calculate the magnetic field in a space by using mathematica software for the effective production of nano-particles. Journal of Interdisciplinary Mathematics 25:7, pages 2007-2017.
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Mohammadjavad Seghatoleslami. (2013) Silver Nanoparticles and Magnetic Field Effects on Seed and Essential Oil Yield of Carum copticum under Water Stress Condition. Journal of Herbs, Spices & Medicinal Plants 19:4, pages 357-364.
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S. Alikamanoğlu, O. Yaycılı, Ç. Atak & A. Rzakoulieva. (2007) Effect of Magnetic Field and Gamma Radiation on Paulowinia Tomentosa Tissue Culture. Biotechnology & Biotechnological Equipment 21:1, pages 49-53.
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E. Martinez, M. V. Carbonell & M. Florez. (2002) MAGNETIC BIOSTIMULATION OF INITIAL GROWTH STAGES OF WHEAT (TRITICUM AESTIVUM, L.). Electromagnetic Biology and Medicine 21:1, pages 43-53.
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Articles from other publishers (44)
Mehmet Emre Erez & Muhsin Özbek. (2023) Magnetic field effects on the physiologic and molecular pathway of wheat (Triticum turgidum L.) germination and seedling growth. Acta Physiologiae Plantarum 46:1.
Crossref
Crossref
Gaetano Chirico, Claudio D'Elia, Nicola D'Ambrosio & Rita Massa. (2023) Design and Evaluation of an Applicator for Magnetopriming Treatments. IEEE Journal of Electromagnetics, RF and Microwaves in Medicine and Biology 7:3, pages 245-250.
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Crossref
Neslihan KADIOĞLU, Sıtkı ERMİŞ, Güleda ÖKTEM & İbrahim DEMİR. (2023) Magnetopriming enhanced seed germination in six vegetable species: tomato, pepper, onion, cauliflower, cabbage and carrotDomates, biber, soğan, karnabahar, lahana ve havuç türlerinde magnetopriming ile tohum çimlenmesinin iyileştirilmesi. Mustafa Kemal Üniversitesi Tarım Bilimleri Dergisi 28:3, pages 557-567.
Crossref
Crossref
M. B. Hafeez, N. Zahra, N. Ahmad, Z. Shi, A. Raza, X. Wang & J. Li. (2022) Growth, physiological, biochemical and molecular changes in plants induced by magnetic fields: A review. Plant Biology 25:1, pages 8-23.
Crossref
Crossref
Baolin Yang, Lei Cheng, Zicheng Liu, Yanan Zhao & An Xu. 2023. Biological Effects of Static Magnetic Fields. Biological Effects of Static Magnetic Fields
187
237
.
Alexey Kutyrev, Rostislav Filippov, Dmitriy Khort & Igor Smirnov. 2023. Fundamental and Applied Scientific Research in the Development of Agriculture in the Far East (AFE-2022). Fundamental and Applied Scientific Research in the Development of Agriculture in the Far East (AFE-2022)
858
867
.
Mohammad K. Abhary & Abdullah Akhkha. (2023) Effects of neodymium magneto‐priming on seed germination and salinity tolerance in tomato. Bioelectromagnetics 44:1-2, pages 47-56.
Crossref
Crossref
Sadia Hassan, Xin-An Zeng, Muhammad Kamran Khan, Muhammad Adil Farooq, Amjad Ali, Ankita Kumari, Mahwish, Abdul Rahaman, Tabussam Tufail & Atif Liaqat. (2022) Recent developments in physical invigoration techniques to develop sprouts of edible seeds as functional foods. Frontiers in Sustainable Food Systems 6.
Crossref
Crossref
Suchita N. Kamble, Ramesh K. Satdive, S. N. Manwatkar, Chandrakant Salunkhe, Janvin Itteera, Kumud Singh, P. Suprasanna & Sudhir Singh. (2022) Influence of magnetic field on the growth, development and rhizome yield of turmeric (Curcuma longa L.). Plant Cell, Tissue and Organ Culture (PCTOC) 150:3, pages 555-561.
Crossref
Crossref
Abhimanyu Kumar & Om Prakash Pandey. (2021) Causal theory on acceleration of seed germination in the vicinity of high voltage direct current transmission line. Journal of Theoretical Biology 531, pages 110899.
Crossref
Crossref
Mohammad Sarraf, Kricelle Mosquera Deamici, Houda Taimourya, Monirul Islam, Sunita Kataria, Ritesh Kumar Raipuria, Gholamreza Abdi & Marian Brestic. (2021) Effect of Magnetopriming on Photosynthetic Performance of Plants. International Journal of Molecular Sciences 22:17, pages 9353.
Crossref
Crossref
Jing Nie, Nianyi Wang, Kang Wang, Yang Li, Xuewei Chao & Jingbin Li. (2021) Effect of Drip Irrigation with Magnetised Water and Fertiliser on Cotton Nutrient Absorption. IOP Conference Series: Earth and Environmental Science 697:1, pages 012009.
Crossref
Crossref
Azita Shabrangy, Arindam Ghatak, Shuang Zhang, Alfred Priller, Palak Chaturvedi & Wolfram Weckwerth. (2021) Magnetic Field Induced Changes in the Shoot and Root Proteome of Barley (Hordeum vulgare L.). Frontiers in Plant Science 12.
Crossref
Crossref
Etimad Alattar, Khitam Elwasife & Eqbal Radwan. (2021) Effects of magnetic field treated water on some growth parameters of corn (<i>Zea mays</i>) plants. AIMS Biophysics 8:3, pages 267-280.
Crossref
Crossref
Izabela Michalak, Annika Bartniczak, Sylwia Baśladyńska, Sylwia Lewandowska, Jerzy Detyna, Michał Łoziński, Katarzyna Niemczyk & Henryk Bujak. (2020)
Cladophora glomerata
Extract and Static Magnetic Field Influences the Germination of Seeds and Multielemental Composition of Carrot
. Ecological Chemistry and Engineering S 27:4, pages 629-641.
Crossref
Crossref
Meenakshi Thakur, Poornima Sharma, Anjali Anand, Vinod Kumar Pandita, Arti Bhatia & Suchitra Pushkar. (2020) Raffinose and Hexose Sugar Content During Germination Are Related to Infrared Thermal Fingerprints of Primed Onion (Allium cepa L.) Seeds. Frontiers in Plant Science 11.
Crossref
Crossref
Izabela Michalak, Sylwia Lewandowska, Katarzyna Niemczyk, Jerzy Detyna, Henryk Bujak, Pelin Arik & Annika Bartniczak. (2019) Germination of soybean seeds exposed to the static/alternating magnetic field and algal extract. Engineering in Life Sciences 19:12, pages 986-999.
Crossref
Crossref
Sylwia Lewandowska, Izabela Michalak, Katarzyna Niemczyk, Jerzy Detyna, Henryk Bujak & Pelin Arik. (2019) Influence of the Static Magnetic Field and Algal Extract on the Germination of Soybean Seeds. Open Chemistry 17:1, pages 516-525.
Crossref
Crossref
Anzel Bahadir, Ramazan Beyaz & Mustafa Yildiz. (2018)
Effect of magnetic field on in vitro seedling growth and shoot regeneration from cotyledon node explants of
Lathyrus chrysanthus
boiss
. Bioelectromagnetics 39:7, pages 547-555.
Crossref
Crossref
Sadowska Urszula, Zabinski Andrzej & Tabor Sylwester. (2018) Influence of variable electromagnetic field on the energy and germination capacity of Cannabis sativa L. subsp. culta Serebr. Influence of variable electromagnetic field on the energy and germination capacity of Cannabis sativa L. subsp. culta Serebr.
Dennis Dannehl. (2018) Effects of electricity on plant responses. Scientia Horticulturae 234, pages 382-392.
Crossref
Crossref
Mustafa Yildiz, Ramazan Beyaz, Mehtap Gursoy, Murat Aycan, Yusuf Koc & Mustafa Kayan. 2017. Advances in Seed Biology. Advances in Seed Biology.
Canan Ulgen, Arzu Birinci Yıldırım & Arzu Uçar Turker. (2017) Effect of Magnetic Field Treatments on Seed Germination of Melissa officinalis L.. International Journal of Secondary Metabolite, pages 63-69.
Crossref
Crossref
Sunita Kataria. 2017. Reactive Oxygen Species in Plants. Reactive Oxygen Species in Plants
75
88
.
Meysam Abedinpour & Ebrahim Rohani. (2017) Effects of magnetized water application on soil and maize growth indices under different amounts of salt in the water. Journal of Water Reuse and Desalination 7:3, pages 319-325.
Crossref
Crossref
M. Airò, G. Ala, P. Buccheri, M. Caruso, G. Fascella, A. Giovino & M.M. Mammano. (2017)
Effect of weak magnetic fields on the in vitro propagation of
Genista aetnensis
(Raf. Ex Biv.) Dc.
. Acta Horticulturae:1155, pages 387-392.
Crossref
Crossref
Xin Zhang, Kevin Yarema & An XuXin Zhang, Kevin Yarema & An Xu. 2017. Biological Effects of Static Magnetic Fields. Biological Effects of Static Magnetic Fields
133
172
.
Lokesh Baghel, Sunita Kataria & Kadur Narayan Guruprasad. (2016) Static magnetic field treatment of seeds improves carbon and nitrogen metabolism under salinity stress in soybean. Bioelectromagnetics 37:7, pages 455-470.
Crossref
Crossref
M Hozayn, M M Abdallha, El Monem A A Abd, A A El Saady, M A Darwish, M Hozayn, M M Abdallha, El Monem A A Abd, A A El Saady & M A Darwish. (2016) Applications of magnetic technology in agriculture: A novel tool for improving crop productivity (1): Canola. African Journal of Agricultural Research 11:5, pages 441-449.
Crossref
Crossref
Hua Han Chen, Hung Chia Chang, Yu Kuo Chen, Chien Lun Hung, Su Yi Lin & Yi Sheng Chen. (2016) An improved process for high nutrition of germinated brown rice production: Low-pressure plasma. Food Chemistry 191, pages 120-127.
Crossref
Crossref
Mohammadjavad Seghatoleslami, Hassan Feizi, Gholamreza Mousavi & Aliasghar Berahmand. (2015) Effect of magnetic field and silver nanoparticles on yield and water use efficiency of Carum copticum under water stress conditions. Polish Journal of Chemical Technology 17:1, pages 110-114.
Crossref
Crossref
M Hozayn, A A EL Mahdy Amal & H M H Abdel Rahman. (2015) Effect of magnetic field on germination, seedling growth and cytogenetic of onion (Allium cepa L.). African Journal of Agricultural Research 10:8, pages 849-857.
Crossref
Crossref
Massimo E. Maffei. (2014) Magnetic field effects on plant growth, development, and evolution. Frontiers in Plant Science 5.
Crossref
Crossref
Angel De Souza, Dagoberto García, Lilita Sueiro & Fidel Gilart. (2014) Improvement of the seed germination, growth and yield of onion plants by extremely low frequency non-uniform magnetic fields. Scientia Horticulturae 176, pages 63-69.
Crossref
Crossref
M. Hozayn, A.A. Abd El Monem, R.E. Abdelraouf & M.M. Abdalla. (2013) Do Magnetic Water Affect Water Use Efficiency, Quality and Yield of Sugar Beet (Beta vulgaris L.) Plant under Arid Regions Conditions?. Journal of Agronomy 12:1, pages 1-10.
Crossref
Crossref
Soheil Karimi, Shadi Hojati, Saeid Eshghi, Rahim Nazary Moghaddam & Samira Jandoust. (2012) Magnetic exposure improves tolerance of fig ‘Sabz’ explants to drought stress induced in vitro. Scientia Horticulturae 137, pages 95-99.
Crossref
Crossref
K. Venkateswar Reddy, S. Raisa Reshma, S. Jareena & M. Nagaraju. (2012) Exposure of Greengram Seeds (Vigna radiate var. radiata) to Static Magnetic Fields: Effects on Germination and a-amylase Activity. Research Journal of Seed Science 5:3, pages 106-114.
Crossref
Crossref
L. Kubisz, R. Hołubowicz, M. Gauza, H. Li, D. Hojan-Jezierska & F. Jaroszyk. (2012) Effect of Low Frequency Magnetic Field on Germination of Onion (Allium cepa L.) Seeds. Acta Physica Polonica A 121:1A, pages A-49-A-53.
Crossref
Crossref
P Kirawanich & N E Islam. (2010)
Developments in Mung Bean (
Vigna Radiata
L.) and Water Convolvulus (
Ipomoea Aquatica
Forssk.) Yields by Narrow-Band Nonionizing Radiations
. IEEE Transactions on Plasma Science 38:8, pages 1942-1948.
Crossref
Crossref
Turgay Cakmak, Rahmi Dumlupinar & Serkan Erdal. (2009) Acceleration of germination and early growth of wheat and bean seedlings grown under various magnetic field and osmotic conditions. Bioelectromagnetics 31:2, pages 120-129.
Crossref
Crossref
Ananta Vashisth & Shantha Nagarajan. (2010) Effect on germination and early growth characteristics in sunflower (Helianthus annuus) seeds exposed to static magnetic field. Journal of Plant Physiology 167:2, pages 149-156.
Crossref
Crossref
Ryan Hunt, Andrey Zavalin, Ashish Bhatnagar, Senthil Chinnasamy & Keshav Das. (2009) Electromagnetic Biostimulation of Living Cultures for Biotechnology, Biofuel and Bioenergy Applications. International Journal of Molecular Sciences 10:10, pages 4515-4558.
Crossref
Crossref
A. De Souza, D. Garcí, L. Sueiro, F. Gilart, E. Porras & L. Licea. (2006) Pre‐sowing magnetic treatments of tomato seeds increase the growth and yield of plants. Bioelectromagnetics 27:4, pages 247-257.
Crossref
Crossref
Orkun Yaycili & Sema Alikamanoglu. (2005) The effect of magnetic field on Paulownia tissue cultures. Plant Cell, Tissue and Organ Culture 83:1, pages 109-114.
Crossref
Crossref