How to cite this paper
Yassin, O., Ismail, S., Gameh, M., Khalil, F & Ahmed, E. (2022). Evaluation of chemical composition of roots of three sugar beets varieties growing under different water deficit and harvesting dates in Upper Egypt.Current Chemistry Letters, 11(1), 1-10.
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1 Abdel-Raheem Sh. A. A., Kamal El-Dean A. M., Hassanien R., El-Sayed M. E. A., and Abd-Ella A. A. (2020) Synthesis and biological activity of 2-((3-Cyano-4,6-distyrylpyridin-2-yl)thio)acetamide and its cyclized form. Alger. j. biosciences, 01 (02) 046-050.
2 Bakhite E. A., Abd-Ella A. A., El-Sayed M. E. A., and Abdel-Raheem Sh. A. A. (2014) Pyridine derivatives as insecticides. Part 1: Synthesis and toxicity of some pyridine derivatives against Cowpea Aphid, Aphis craccivora Koch (Homoptera: Aphididae). J. Agric. Food Chem., 62 (41) 9982–9986.
3 Abdelhamid A. A., Elsaghier A. M. M., Aref S. A., Gad M. A., Ahmed N. A., and Abdel-Raheem Sh. A. A. (2021) Preparation and biological activity evaluation of some benzoylthiourea and benzoylurea compounds. Curr. Chem. Lett., 10 (4) 371-376.
4 Bakhite E. A., Abd-Ella A. A., El-Sayed M. E. A., and Abdel-Raheem Sh. A. A. (2017) Pyridine derivatives as insecticides. Part 2: Synthesis of some piperidinium and morpholinium cyanopyridinethiolates and their Insecticidal Activity. J. Saud. Chem. Soc., 21 (1) 95–104.
5 Kamal El-Dean A. M., Abd-Ella A. A., Hassanien R., El-Sayed M. E. A., Zaki R. M., and Abdel-Raheem Sh. A. A. (2019) Chemical design and toxicity evaluation of new pyrimidothienotetrahydroisoquinolines as potential insecticidal agents. Toxicol. Rep., 6 (2019) 100-104.
6 Gad M. A., Aref S. A., Abdelhamid A. A., Elwassimy M. M., and Abdel-Raheem Sh. A. A. (2021) Biologically active organic compounds as insect growth regulators (IGRs): introduction, mode of action, and some synthetic methods. Curr. Chem. Lett., 10 (4) 393-412.
7 Kamal El-Dean A. M., Abd-Ella A. A., Hassanien R., El-Sayed M. E. A., and Abdel-Raheem Sh. A. A. (2019) Design, Synthesis, Characterization, and Insecticidal Bioefficacy Screening of Some New Pyridine Derivatives. ACS Omega, 4 (5) 8406-8412.
8 Abdel-Raheem Sh. A. A., Kamal El-Dean A. M., Zaki R. M., Hassanien R., El-Sayed M. E. A., Sayed M., and Abd-Ella A. A. (2021) Synthesis and toxicological studies on distyryl-substituted heterocyclic insecticides. Eur. Chem. Bull., 10 (4) 225-229.
9 Abdel-Raheem Sh. A. A., Kamal El-Dean A. M., Hassanien R., El-Sayed M. E. A., and Abd-Ella A. A. (2021) Synthesis and characterization of some distyryl-derivatives for agricultural uses. Eur. Chem. Bull., 10 (1) 35-38.
10 Tolba M. S., Sayed M., Abdel-Raheem Sh. A. A., Gaber T. A., Kamal El-Dean A. M., and Ahmed M. (2021) Synthesis and spectral characterization of some new thiazolopyrimidine derivatives. Curr. Chem. Lett., 10 (4) 471-478.
11 Al-Taifi E. A., Abdel-Raheem Sh. A. A., and Bakhite E. A. (2016) Some reactions of 3-cyano-4-(p-methoxyphenyl)-5-oxo-5,6,7,8-tetrahydroquinoline-2(1H)-thione; Synthesis of new tetrahydroquinolines and tetrahydrothieno[2,3-b]quinolines. Assiut University Journal of Chemistry (AUJC), 45 (1) 24-32.
12 Abdel-Raheem Sh. A. A., Kamal El-Dean A. M., Hassanien R., El-Sayed M. E. A., Sayed M., and Abd-Ella A. A. (2021) Synthesis and spectral characterization of selective pyridine compounds as
bioactive agents. Curr. Chem. Lett., 10 (3) 255-260.
13 Abdel-Raheem Sh. A. A., Kamal El-Dean A. M., Abd ul-Malik M. A., Abd-Ella A. A., Al-Taifi E. A., Hassanien R., El-Sayed M. E. A., Mohamed S. K., Zawam S. A., and Bakhite E. A. (2021) A concise review on some synthetic routes and applications of pyridine scaffold compounds. Curr. Chem. Lett., 10 (4) 337-362.
14 Tolba M. S., Kamal El-Dean A. M., Ahmed M., Hassanien R., Sayed M., Zaki R. M., Mohamed S. K., Zawam S. A., Abdel-Raheem Sh. A. A. (2021) Synthesis, reactions, and applications of pyrimidine derivatives. Curr. Chem. Lett., Accepted Manuscript (DOI: 10.5267/j.ccl.2021.8.002).
15 Abdelhafeez I. A., El-Tohamy S. A., Abd ul-Malik M. A., Abdel-Raheem Sh. A. A., and El-Dars F. M. S. (2021) A review on green remediation techniques for hydrocarbons and heavy metals contaminated soil. Curr. Chem. Lett., Accepted Manuscript (DOI: 10.5267/j.ccl.2021.9.006).
16 Tolba M. S., Abd ul-Malik M. A., Kamal El-Dean A. M., Geies A. A., Radwan Sh. M., Zaki R. M., Sayed M., Mohamed S. K., and Abdel-Raheem Sh. A. A. (2021) An overview on synthesis and reactions of coumarin based compounds. Curr. Chem. Lett., Accepted Manuscript (DOI: 10.5267/j.ccl.2021.9.007).
17 Abdel-Raheem Sh. A. A., Kamal El-Dean A. M., Abd ul-Malik M. A., Hassanien R., El-Sayed M. E. A., Abd-Ella A. A., Zawam S. A., and Tolba M. S. (2021) Synthesis of new distyrylpyridine analogues bearing amide substructure as effective insecticidal agents. Curr. Chem. Lett., Accepted Manuscript (DOI: 10.5267/j.ccl.2021.10.001).
18 Thalooth A. T., Tawfik M. M., Badre E. A., and Mohamed M. H. (2019) Yield and quality response of some sugar beet (Beta vulgaris L.) varieties to humic acid and yeast application in newly reclaimed soil. Middle East J. Agric. Res., 8 (1) 56-65.
19 Winter SR. (1980) Suitability of Sugar Beet for limited irrigation in a semi-arid climate. J. Agron., 72 118-123.
20 Hemayati S. S., Shirzadi M. H., Aghaeezadeh M., Taleghani D. F., Javaheri M. A., and Aliasghari A. (2012) Evaluation of sowing and harvesting date effects on yield and quality of five sugar beet cultivars in Jiroft region (autumn planting). J. Sugar Beet Res., 28 (1) 42-25.
21 Abo El-Ghait R. A. (2013) Response of some sugar beet varieties to time of harvest. Egyptian Journal of Applied Sciences (EJAS), 28 (3) 204-215.
22 Hanan M. Y., and Yasin M. A. T. (2013) Response of some sugar Beet varieties to harvesting dates and foliar application of boron and zinc in sandy Soil. Egypt. J. Agron., 35 (2) 227- 252.
23 Al-Labody A. H. S., Nafi A. I., and Aly E. F. (2012) Response of some sugar beet varieties to nitrogen sources under the newly reclaimed soil. Egyptian Journal of Applied Sciences (EJAS), 27 (4) 152-160.
24 Kaloi, G. M., HMari A., Zubair M. ., Panhwar R. ., Bughio N. N., Junejo S., Unar G. S., and Bhutt M. A. (2014) Performance of exotic sugar beet varieties under agro-climatic conditions of lower Sindh. J. Anim. Plant Sci., 28 (1) 13-21.
25 Mekdad A. A. A., and M. M. Rady (2016) Response of Beta vulgaris L. to nitrogen and micronutrients in dry environment. J. Plant Soil Environ., 62 (1) 23–29.
26 Winter S R. (1990) Sugar beet response to nitrogen as affected by seasonal irrigation. J. Agron., 82 984–988.
27 Last P. J., Draycott A. P., Messem A. B., and Webb D. J. (2009) Effects of nitrogen fertilizer and irrigation on sugar beet at Broom’s Barn 1973–8. J. Agric. Sci., 101 185–205
28 Abou-Elwafa S. F., Amin A. E. E. A., and Eujay I. (2020) Genetic diversity of sugar beet under heat stress and deficit irrigation. J. Agron., 112 (5) 3579-3590.
29 Abou-Salama C.N.J., and S.I. El-Syiad A.M. (2000) Studies on some sugar beet cultivars under Middle Egypt conditions. I. Response to planting and harvesting dates. Assiut Journal of Agricultural Sciences (AJAS), 31 (1) 137-159.
30 Al-Sayed H. M., El-Razek U. A. A., Sarhan H. M., and Fateh, H. S. (2012) Effect of harvest dates on yield and quality of sugar beet varieties. Aust. j. basic appl. sci., 6 (9) 525-529.
31 Heidari G., Sohrabi Y., and Esmailpoor B. (2008) Influence of harvesting time on yield and yield components of sugar beet. J. Agri. Soc. Sci., 4 (2) 69-73.
32 Nagib S. R., El-Azez A., and Ali A. M. K. (2018) Evaluation of some New Sugar Beet Varieties as Affected by Different Harvest Ages under Conditions of Minia Governorate. J. Plant Prod. Sci., 9 (12) 1175-1180.
33 Safina S. A., and Abdel Fatah E. M. (2011) Response of three sugar beet varieties to compost, mineral nitrogen fertilizer and their combinations under sandy soil conditions IIYield and quality. Bull. Fac. Agric., Cairo Univ., 62 (4) 447-456.
34 Esmaeili M.A. (2011) Evaluation of the effects of water stress and different levels of nitrogen on sugar beet (Beta vulgaris). Inter. J. Biol., 3 (2) 89-93.
35 Masri M. I., Ramadan B. S. B., El-Shafai, A .M. A., and El-Kady M. S. (2015) Effect of water stress and fertilization on yield and quality of sugar beet under drip and sprinkler irrigation systems in sandy soil. Int. J. Agric. Sci., 5 (3) 414-425.
36 Aly E. F. A. (2006) Effect of environmental conditions on productivity and quality of some sugar beet varieties. Ph.D. Thesis, Fac. of Agric., Benha Univ., Egypt.
37 Abd El-Aal A. M., Nafie A. I., and Abdel Aziz Ranya M. (2010) Response of some sugar beet genotypes to nitrogen fertilization under newly reclaimed land conditions. Egyptian Journal of Applied Sciences (EJAS), 25 (6B) 194-208.
38 Enan S. A. A. M., Aly E. F. A., and Badr A. I. (2016) Effect of humic acid and potassium on yield and quality of some sugar beet varieties in sandy soil. J. Plant Prod. Mansoura Univ., 7 (2) 289 -297.
39 Awad N. M. M., Abdel-daiem A., and Moustafa S. M. I. (2014) Evaluation of siand sugar beet varieties under three harvest dates. Minufiya J. Agric.Res., 39 (1) 121-130.
40 Klara P., Jaromir C., Josef P., and Jaroslav U. (2017) Influence of sowing and harvest dates on production of two different cultivars of sugar beet. Plant Soil Environ., 63 (2) 76-81.
41 Gobarah M. E., and Mekki B. B. (2005) Influence of boron application on yield and juice quality of some sugar beet cultivars grown under saline soil conditions. Res. J. Appl. Sci., 1 (5) 373-379.
42 Ahmed S., Zubair M ., Iqbal N., Cheema N. M., and Mahmood K. (2012) Evaluation of sugar beet hybrid varieties under ThalKumbi in Pakistan. J. Agric. Biol., 14 (4) 605-608.
43 Hozayn M. (2013) Screening of some exotic sugar beet cultivars grown under newly reclaimed sandy soil for yield and sugar quality traits. J. Appl. Sci. Res., 9 (3) 2213-2222.
44 A. O. A. C. (2005) Association of Official Analytical Chemists. "Official Methods of Analysis", 16th ed. Inter. Washington, D. C. USA.
45 Devillers P. (1988) Prevision du sucre melasse. Scurries francases 129, 190-200. (C. F. The Sugar Beet Crop Book).
46 Dexter S. T., Frakes M. G., and Snyder F. W. (1967) Arapid and practical method of determining extractable white sugar as may be applied to the evaluation of agronomic practices and grower deliveries in the sugar beet industry. J. Am. Soc. Sugar Beet Tech., 14 433–454.
47 Carruthers A., Oldfield J. F.T., and Teague H. J. (1962) Assessment of beet quality.InThe15th Annual Technical Conference. British Sugar Corporation Ltd., p. 28.
48 Steel R. G. D., and Torrie J. H. (1982) Principals and Procedures of Statistics A Biometrical Approach. Mc Graw Hill Book Company, New York. USA.
49 Saber A. F., Sayed M., Tolba M. S., Kamal A. M., Hassanien R., and Ahmed M. (2021) A Facile Method for Preparation and Evaluation of the Antimicrobial Efficiency of Various Heterocycles Containing Thieno[2,3-d]Pyrimidine. Synth. Commun, 51 (3) 398-409.
50 Ahmed M., Sayed M., Saber A. F., Hassanien R., Kamal El-Dean A. M., and Tolba M. S. (2020) Synthesis, Characterization, and Antimicrobial Activity of New Thienopyrimidine Derivatives. Polycycl. Aromat. Compd., Accepted Manuscript (DOI: 10.1080/10406638.2020.1852587).
51 Kamal El-Dean A. M., Zaki R. M., Radwan S. M., and Saber A. F. (2017) Synthesis, Reactions and Spectral Characterization of Novel Thienopyrazole Derivatives. Eur. Chem. Bull., 6 (12) 550–553.
52 Zaki R. M., Kamal El-Dean A. M., Radwan S. M., and Saber A. F. (2019) Efficient synthesis, reactions and spectral characterization of novel pyrazolo[4’,3’:4,5]thieno[3,2-d]pyrimidine derivatives and their related heterocycles. Heterocycl. Commun., 25 (1) 39–46.
53 Saber A. F., Zaki R. M., Kamal El-Dean A. M., and Radwan S. M. (2020) Synthesis, reactions and spectral characterization of some new biologically active compounds derived from thieno[2,3-c]pyrazole-5-carboxamide. J. Heterocyclic Chem., 57 (1) 238–247.
2 Bakhite E. A., Abd-Ella A. A., El-Sayed M. E. A., and Abdel-Raheem Sh. A. A. (2014) Pyridine derivatives as insecticides. Part 1: Synthesis and toxicity of some pyridine derivatives against Cowpea Aphid, Aphis craccivora Koch (Homoptera: Aphididae). J. Agric. Food Chem., 62 (41) 9982–9986.
3 Abdelhamid A. A., Elsaghier A. M. M., Aref S. A., Gad M. A., Ahmed N. A., and Abdel-Raheem Sh. A. A. (2021) Preparation and biological activity evaluation of some benzoylthiourea and benzoylurea compounds. Curr. Chem. Lett., 10 (4) 371-376.
4 Bakhite E. A., Abd-Ella A. A., El-Sayed M. E. A., and Abdel-Raheem Sh. A. A. (2017) Pyridine derivatives as insecticides. Part 2: Synthesis of some piperidinium and morpholinium cyanopyridinethiolates and their Insecticidal Activity. J. Saud. Chem. Soc., 21 (1) 95–104.
5 Kamal El-Dean A. M., Abd-Ella A. A., Hassanien R., El-Sayed M. E. A., Zaki R. M., and Abdel-Raheem Sh. A. A. (2019) Chemical design and toxicity evaluation of new pyrimidothienotetrahydroisoquinolines as potential insecticidal agents. Toxicol. Rep., 6 (2019) 100-104.
6 Gad M. A., Aref S. A., Abdelhamid A. A., Elwassimy M. M., and Abdel-Raheem Sh. A. A. (2021) Biologically active organic compounds as insect growth regulators (IGRs): introduction, mode of action, and some synthetic methods. Curr. Chem. Lett., 10 (4) 393-412.
7 Kamal El-Dean A. M., Abd-Ella A. A., Hassanien R., El-Sayed M. E. A., and Abdel-Raheem Sh. A. A. (2019) Design, Synthesis, Characterization, and Insecticidal Bioefficacy Screening of Some New Pyridine Derivatives. ACS Omega, 4 (5) 8406-8412.
8 Abdel-Raheem Sh. A. A., Kamal El-Dean A. M., Zaki R. M., Hassanien R., El-Sayed M. E. A., Sayed M., and Abd-Ella A. A. (2021) Synthesis and toxicological studies on distyryl-substituted heterocyclic insecticides. Eur. Chem. Bull., 10 (4) 225-229.
9 Abdel-Raheem Sh. A. A., Kamal El-Dean A. M., Hassanien R., El-Sayed M. E. A., and Abd-Ella A. A. (2021) Synthesis and characterization of some distyryl-derivatives for agricultural uses. Eur. Chem. Bull., 10 (1) 35-38.
10 Tolba M. S., Sayed M., Abdel-Raheem Sh. A. A., Gaber T. A., Kamal El-Dean A. M., and Ahmed M. (2021) Synthesis and spectral characterization of some new thiazolopyrimidine derivatives. Curr. Chem. Lett., 10 (4) 471-478.
11 Al-Taifi E. A., Abdel-Raheem Sh. A. A., and Bakhite E. A. (2016) Some reactions of 3-cyano-4-(p-methoxyphenyl)-5-oxo-5,6,7,8-tetrahydroquinoline-2(1H)-thione; Synthesis of new tetrahydroquinolines and tetrahydrothieno[2,3-b]quinolines. Assiut University Journal of Chemistry (AUJC), 45 (1) 24-32.
12 Abdel-Raheem Sh. A. A., Kamal El-Dean A. M., Hassanien R., El-Sayed M. E. A., Sayed M., and Abd-Ella A. A. (2021) Synthesis and spectral characterization of selective pyridine compounds as
bioactive agents. Curr. Chem. Lett., 10 (3) 255-260.
13 Abdel-Raheem Sh. A. A., Kamal El-Dean A. M., Abd ul-Malik M. A., Abd-Ella A. A., Al-Taifi E. A., Hassanien R., El-Sayed M. E. A., Mohamed S. K., Zawam S. A., and Bakhite E. A. (2021) A concise review on some synthetic routes and applications of pyridine scaffold compounds. Curr. Chem. Lett., 10 (4) 337-362.
14 Tolba M. S., Kamal El-Dean A. M., Ahmed M., Hassanien R., Sayed M., Zaki R. M., Mohamed S. K., Zawam S. A., Abdel-Raheem Sh. A. A. (2021) Synthesis, reactions, and applications of pyrimidine derivatives. Curr. Chem. Lett., Accepted Manuscript (DOI: 10.5267/j.ccl.2021.8.002).
15 Abdelhafeez I. A., El-Tohamy S. A., Abd ul-Malik M. A., Abdel-Raheem Sh. A. A., and El-Dars F. M. S. (2021) A review on green remediation techniques for hydrocarbons and heavy metals contaminated soil. Curr. Chem. Lett., Accepted Manuscript (DOI: 10.5267/j.ccl.2021.9.006).
16 Tolba M. S., Abd ul-Malik M. A., Kamal El-Dean A. M., Geies A. A., Radwan Sh. M., Zaki R. M., Sayed M., Mohamed S. K., and Abdel-Raheem Sh. A. A. (2021) An overview on synthesis and reactions of coumarin based compounds. Curr. Chem. Lett., Accepted Manuscript (DOI: 10.5267/j.ccl.2021.9.007).
17 Abdel-Raheem Sh. A. A., Kamal El-Dean A. M., Abd ul-Malik M. A., Hassanien R., El-Sayed M. E. A., Abd-Ella A. A., Zawam S. A., and Tolba M. S. (2021) Synthesis of new distyrylpyridine analogues bearing amide substructure as effective insecticidal agents. Curr. Chem. Lett., Accepted Manuscript (DOI: 10.5267/j.ccl.2021.10.001).
18 Thalooth A. T., Tawfik M. M., Badre E. A., and Mohamed M. H. (2019) Yield and quality response of some sugar beet (Beta vulgaris L.) varieties to humic acid and yeast application in newly reclaimed soil. Middle East J. Agric. Res., 8 (1) 56-65.
19 Winter SR. (1980) Suitability of Sugar Beet for limited irrigation in a semi-arid climate. J. Agron., 72 118-123.
20 Hemayati S. S., Shirzadi M. H., Aghaeezadeh M., Taleghani D. F., Javaheri M. A., and Aliasghari A. (2012) Evaluation of sowing and harvesting date effects on yield and quality of five sugar beet cultivars in Jiroft region (autumn planting). J. Sugar Beet Res., 28 (1) 42-25.
21 Abo El-Ghait R. A. (2013) Response of some sugar beet varieties to time of harvest. Egyptian Journal of Applied Sciences (EJAS), 28 (3) 204-215.
22 Hanan M. Y., and Yasin M. A. T. (2013) Response of some sugar Beet varieties to harvesting dates and foliar application of boron and zinc in sandy Soil. Egypt. J. Agron., 35 (2) 227- 252.
23 Al-Labody A. H. S., Nafi A. I., and Aly E. F. (2012) Response of some sugar beet varieties to nitrogen sources under the newly reclaimed soil. Egyptian Journal of Applied Sciences (EJAS), 27 (4) 152-160.
24 Kaloi, G. M., HMari A., Zubair M. ., Panhwar R. ., Bughio N. N., Junejo S., Unar G. S., and Bhutt M. A. (2014) Performance of exotic sugar beet varieties under agro-climatic conditions of lower Sindh. J. Anim. Plant Sci., 28 (1) 13-21.
25 Mekdad A. A. A., and M. M. Rady (2016) Response of Beta vulgaris L. to nitrogen and micronutrients in dry environment. J. Plant Soil Environ., 62 (1) 23–29.
26 Winter S R. (1990) Sugar beet response to nitrogen as affected by seasonal irrigation. J. Agron., 82 984–988.
27 Last P. J., Draycott A. P., Messem A. B., and Webb D. J. (2009) Effects of nitrogen fertilizer and irrigation on sugar beet at Broom’s Barn 1973–8. J. Agric. Sci., 101 185–205
28 Abou-Elwafa S. F., Amin A. E. E. A., and Eujay I. (2020) Genetic diversity of sugar beet under heat stress and deficit irrigation. J. Agron., 112 (5) 3579-3590.
29 Abou-Salama C.N.J., and S.I. El-Syiad A.M. (2000) Studies on some sugar beet cultivars under Middle Egypt conditions. I. Response to planting and harvesting dates. Assiut Journal of Agricultural Sciences (AJAS), 31 (1) 137-159.
30 Al-Sayed H. M., El-Razek U. A. A., Sarhan H. M., and Fateh, H. S. (2012) Effect of harvest dates on yield and quality of sugar beet varieties. Aust. j. basic appl. sci., 6 (9) 525-529.
31 Heidari G., Sohrabi Y., and Esmailpoor B. (2008) Influence of harvesting time on yield and yield components of sugar beet. J. Agri. Soc. Sci., 4 (2) 69-73.
32 Nagib S. R., El-Azez A., and Ali A. M. K. (2018) Evaluation of some New Sugar Beet Varieties as Affected by Different Harvest Ages under Conditions of Minia Governorate. J. Plant Prod. Sci., 9 (12) 1175-1180.
33 Safina S. A., and Abdel Fatah E. M. (2011) Response of three sugar beet varieties to compost, mineral nitrogen fertilizer and their combinations under sandy soil conditions IIYield and quality. Bull. Fac. Agric., Cairo Univ., 62 (4) 447-456.
34 Esmaeili M.A. (2011) Evaluation of the effects of water stress and different levels of nitrogen on sugar beet (Beta vulgaris). Inter. J. Biol., 3 (2) 89-93.
35 Masri M. I., Ramadan B. S. B., El-Shafai, A .M. A., and El-Kady M. S. (2015) Effect of water stress and fertilization on yield and quality of sugar beet under drip and sprinkler irrigation systems in sandy soil. Int. J. Agric. Sci., 5 (3) 414-425.
36 Aly E. F. A. (2006) Effect of environmental conditions on productivity and quality of some sugar beet varieties. Ph.D. Thesis, Fac. of Agric., Benha Univ., Egypt.
37 Abd El-Aal A. M., Nafie A. I., and Abdel Aziz Ranya M. (2010) Response of some sugar beet genotypes to nitrogen fertilization under newly reclaimed land conditions. Egyptian Journal of Applied Sciences (EJAS), 25 (6B) 194-208.
38 Enan S. A. A. M., Aly E. F. A., and Badr A. I. (2016) Effect of humic acid and potassium on yield and quality of some sugar beet varieties in sandy soil. J. Plant Prod. Mansoura Univ., 7 (2) 289 -297.
39 Awad N. M. M., Abdel-daiem A., and Moustafa S. M. I. (2014) Evaluation of siand sugar beet varieties under three harvest dates. Minufiya J. Agric.Res., 39 (1) 121-130.
40 Klara P., Jaromir C., Josef P., and Jaroslav U. (2017) Influence of sowing and harvest dates on production of two different cultivars of sugar beet. Plant Soil Environ., 63 (2) 76-81.
41 Gobarah M. E., and Mekki B. B. (2005) Influence of boron application on yield and juice quality of some sugar beet cultivars grown under saline soil conditions. Res. J. Appl. Sci., 1 (5) 373-379.
42 Ahmed S., Zubair M ., Iqbal N., Cheema N. M., and Mahmood K. (2012) Evaluation of sugar beet hybrid varieties under ThalKumbi in Pakistan. J. Agric. Biol., 14 (4) 605-608.
43 Hozayn M. (2013) Screening of some exotic sugar beet cultivars grown under newly reclaimed sandy soil for yield and sugar quality traits. J. Appl. Sci. Res., 9 (3) 2213-2222.
44 A. O. A. C. (2005) Association of Official Analytical Chemists. "Official Methods of Analysis", 16th ed. Inter. Washington, D. C. USA.
45 Devillers P. (1988) Prevision du sucre melasse. Scurries francases 129, 190-200. (C. F. The Sugar Beet Crop Book).
46 Dexter S. T., Frakes M. G., and Snyder F. W. (1967) Arapid and practical method of determining extractable white sugar as may be applied to the evaluation of agronomic practices and grower deliveries in the sugar beet industry. J. Am. Soc. Sugar Beet Tech., 14 433–454.
47 Carruthers A., Oldfield J. F.T., and Teague H. J. (1962) Assessment of beet quality.InThe15th Annual Technical Conference. British Sugar Corporation Ltd., p. 28.
48 Steel R. G. D., and Torrie J. H. (1982) Principals and Procedures of Statistics A Biometrical Approach. Mc Graw Hill Book Company, New York. USA.
49 Saber A. F., Sayed M., Tolba M. S., Kamal A. M., Hassanien R., and Ahmed M. (2021) A Facile Method for Preparation and Evaluation of the Antimicrobial Efficiency of Various Heterocycles Containing Thieno[2,3-d]Pyrimidine. Synth. Commun, 51 (3) 398-409.
50 Ahmed M., Sayed M., Saber A. F., Hassanien R., Kamal El-Dean A. M., and Tolba M. S. (2020) Synthesis, Characterization, and Antimicrobial Activity of New Thienopyrimidine Derivatives. Polycycl. Aromat. Compd., Accepted Manuscript (DOI: 10.1080/10406638.2020.1852587).
51 Kamal El-Dean A. M., Zaki R. M., Radwan S. M., and Saber A. F. (2017) Synthesis, Reactions and Spectral Characterization of Novel Thienopyrazole Derivatives. Eur. Chem. Bull., 6 (12) 550–553.
52 Zaki R. M., Kamal El-Dean A. M., Radwan S. M., and Saber A. F. (2019) Efficient synthesis, reactions and spectral characterization of novel pyrazolo[4’,3’:4,5]thieno[3,2-d]pyrimidine derivatives and their related heterocycles. Heterocycl. Commun., 25 (1) 39–46.
53 Saber A. F., Zaki R. M., Kamal El-Dean A. M., and Radwan S. M. (2020) Synthesis, reactions and spectral characterization of some new biologically active compounds derived from thieno[2,3-c]pyrazole-5-carboxamide. J. Heterocyclic Chem., 57 (1) 238–247.