Araştırma Makalesi
Evaluation for Morphological and Biochemical Traits Related to Quality Biomass Production among MS Based Forage Sorghum Hybrids
Öz
Livestock is a major component of Indian agriculture. With the increase in livestock population during past few years
there is huge gap in demand and supply of green as well as dry fodder, hence forage crops improvement programme needs
to be strengthened. Keeping this in view hybrid evaluation experiments were conducted during kharif 2013 and 2014 at
Research area of forage farm at CCS HAU, Hisar and material was sown in randomized block design to estimate overall
performance of hybrids for two successive years. Fifteen MS based hybrids were developed for two successive years and
then evaluated for two years for various agronomic traits that affect the biomass production directly or indirectly. Out of
these hybrids HH 602, HH 561, HH 529 and HH 619 showed higher green and dry fodder yield for two successive years
as compared to best check SSG 59-3 (GFY: 737.6 q/ha and DFY: 137.7 q/ha). As far as their quality is concerned they
have low HCN than toxic limit (200 micro g/g) crude protein more than 8% and in vitro dry matter digestibility more than
50% in HH 529 and HH 619. Thus, on the basis of this evaluation programme we can say that these hybrids are promising
for green fodder productivity. They may also help to fill the gap between demand and supply of green as well as dry fodder
for livestock industry.
Kaynakça
- Akabari VR, Parmar HP, Niranjana M and Nakarani DB (2012). Heterosis and combining ability for green fodder yield and its contributing traits in forage sorghum [Sorghum bicolor (L.) Moench]. Forage Res, 38(3): 156-163. Bello D, Kadams AM, Simon SY and Mashi DS (2007). Studies on genetic variability in cultivated sorghum (Sorghum bicolor (L.) Moench) cultivars of Adamava State Nigeria. American-Eurasian J. Agric. Environ. Sci. 2(3): 297302. Cherney JH, Axtell JD, Hassen MM and Anilker KS (1988). Forage quality characterization of a chemically induced brown-midrib mutant in pearl millet. Crop Sci. 28: 783–787. Dahlberg J, Berenji J, Sikora V and Latković D (2011). Assessing sorghum [Sorghum bicolor (L) Moench] germplasm for new traits: food, fuels & unique uses. Maydica, 56: 85-92. Gaddi GM and Kunnal LB (1996). Source of output growth in new milk production technology and some implications to return on research investment. Indian J. Agril. Econ., 51(3): 389-395. Gilchrist DG, Lueschen WE, Hittle CN 1967: Revised method for the preparation of standards in the sodium picrate assay of HCN. Crop Science, 7: 267-268. Goyal M, Bajaj RK, Gill BS and Sohu RS (2013). Combining ability and heterosis studies for yield and water use efficiency in forage sorghum [Sorghum bicolor (L.) Moench] top crosses under normal and water stress environment. Forage Res, 39(3): 124-133. Grewal RPS, Lodhi GP and Sabharwal PS (1996). Forage sorghum germplasm: Evaluation in the past two decades. Indian J. Pl. Genrt. Resources. 9: 287-293. Hanna WW (1993). Improving forage quality by breeding. Pages 671–675 in International crop science I. International Crop Science Congress, Ames, Iowa, USA, 14–22 July 1992 (Buxton DA, Shibles R, Forsberg RA, Blad BL, Asay KH, Paulsen GM and Wilson RF, eds.). Madison, Wisconsin, USA: Crop Science Society of America. Iyanar K and Khan AKF (2005). Correlation and path analysis in multicut fodder sorghum. Annals Agric. Res. 26(2): 228-230. Jadhav AR, Desai RT, Chaudhary KN, Kadapally VC and Shinde DA (2009). Correlation and path coefficient analysis in ( single cut) forage sorghum (Sorghum bicolor (L.) Moench). Forage Res. 35(3):175-179. Jain SK, Elangovan M and Patel NV (2009). Genetic and environmental variability in dual sorghum (Sorghum bicolor (L.) Moench) for yield and related traits. Forage Res. 34(4): 201-204. Kjeldahl J (1883). “Neue Methode zur Bestimmung des Stickstoffs in organischen Körpern” (New method for the determination of nitrogen in organic substances), Zeitschrift für analytische Chemie, 22(1): 366-383. Kumar MH and Sahib KH (2003). Genetic studies and correlations of biomass related characters in forage sorghum under abiotic stress conditions. J. Res. Amgrau. 31(3): 35-39. Kumar S, Gupta K and Joshi UN (2011). In: Sorghum: cultivation, varieties and uses. Nova Science Publisher, Inc. Mahajan RC, Wadikar PB, Pole SP and Dhuppe MV (2011). Variability, correlation and path analysis studies in sorghum. Research Journal of Agricultural Sciences, 2(1):101-103. Millinath V, Biradar BD, Chittapur BM, Salimath PM, Yenagi N and Patil SS (2004). Variability and correlation studies in pop sorghum. Karnataka Journal of Agricultural Sciences 17(3): 463-467. Mohammed RA, Mohammed MI and Osman AA (2012). J. Science and Technology, 13, 66-77. Nyadanu D and Dikera E (2014). Exploring variation, relationships and heritability of traits among selected accessions of sorghum (Sorghum bicolor L. Moench) in the upper east region of Ghana. J. Plant Breed. Genet. 2(3):101-107. Pahuja SK, Arya S, Kumari P and Panchta R (2014). Evaluation of forage sorghum hybrids (Sorghum bicolor (L.) Moench). Forage Res. 40 (3): 159-162. Pothisoong T and P Jaisil (2011). Yield Potential, heterosis and ethanol Production in F1 Hybrids of Sweet Sorghum (Sorghum bicolor (L.) Moench). KMITL Sci. Tech. J, 11, 17-24. Pholsen S and Suksri A (2007). Effects of Phosphorus and Potassium on Growth, Yield and Fodder Quality of IS 23585 Forage Sorghum Cultivar (Sorghum bicolor (L.) Moench). Pakistan Journal of Biological Sciences, 10: 1604-1610. 40 bitki ıslahçıları alt birliği www.bisab.org.tr Ekin Journal Saini ML and Paroda RS (1975). Inheritance of forage quality attributes in species of Eu-sorghum. Genet. Agr. 29: 371-373. Shinde MS, Awarl V R, Patil VR, Chava UD, Dalvi US and Gadakh SR (2015). CSV 30F: new high yielding single cut forage sorghum variety for kharif season. Forage Res., 41(3): 194-198. Tariq A, Sattar, Akram Z, Ghulam S, Muhammad G, Khalid S, Khan M, Shahid I and Talat M (2012). Character association and inheritance studies of different sorghum genotypes for fodder yield and quality under irrigated and rainfed conditions. African J.Biotech. 11(38): 9189-9195. Tilley JMA and Terry RA (1963). A two-stage technique for the in vitro digestion of forage crops. J. Brit. Grassland Soc. 18:104-111. Vision 2030. Indian Grasslan
Yıl 2016,
Cilt: 2 Sayı: 2, 33 - 40, 30.07.2016
Öz
Kaynakça
- Akabari VR, Parmar HP, Niranjana M and Nakarani DB (2012). Heterosis and combining ability for green fodder yield and its contributing traits in forage sorghum [Sorghum bicolor (L.) Moench]. Forage Res, 38(3): 156-163. Bello D, Kadams AM, Simon SY and Mashi DS (2007). Studies on genetic variability in cultivated sorghum (Sorghum bicolor (L.) Moench) cultivars of Adamava State Nigeria. American-Eurasian J. Agric. Environ. Sci. 2(3): 297302. Cherney JH, Axtell JD, Hassen MM and Anilker KS (1988). Forage quality characterization of a chemically induced brown-midrib mutant in pearl millet. Crop Sci. 28: 783–787. Dahlberg J, Berenji J, Sikora V and Latković D (2011). Assessing sorghum [Sorghum bicolor (L) Moench] germplasm for new traits: food, fuels & unique uses. Maydica, 56: 85-92. Gaddi GM and Kunnal LB (1996). Source of output growth in new milk production technology and some implications to return on research investment. Indian J. Agril. Econ., 51(3): 389-395. Gilchrist DG, Lueschen WE, Hittle CN 1967: Revised method for the preparation of standards in the sodium picrate assay of HCN. Crop Science, 7: 267-268. Goyal M, Bajaj RK, Gill BS and Sohu RS (2013). Combining ability and heterosis studies for yield and water use efficiency in forage sorghum [Sorghum bicolor (L.) Moench] top crosses under normal and water stress environment. Forage Res, 39(3): 124-133. Grewal RPS, Lodhi GP and Sabharwal PS (1996). Forage sorghum germplasm: Evaluation in the past two decades. Indian J. Pl. Genrt. Resources. 9: 287-293. Hanna WW (1993). Improving forage quality by breeding. Pages 671–675 in International crop science I. International Crop Science Congress, Ames, Iowa, USA, 14–22 July 1992 (Buxton DA, Shibles R, Forsberg RA, Blad BL, Asay KH, Paulsen GM and Wilson RF, eds.). Madison, Wisconsin, USA: Crop Science Society of America. Iyanar K and Khan AKF (2005). Correlation and path analysis in multicut fodder sorghum. Annals Agric. Res. 26(2): 228-230. Jadhav AR, Desai RT, Chaudhary KN, Kadapally VC and Shinde DA (2009). Correlation and path coefficient analysis in ( single cut) forage sorghum (Sorghum bicolor (L.) Moench). Forage Res. 35(3):175-179. Jain SK, Elangovan M and Patel NV (2009). Genetic and environmental variability in dual sorghum (Sorghum bicolor (L.) Moench) for yield and related traits. Forage Res. 34(4): 201-204. Kjeldahl J (1883). “Neue Methode zur Bestimmung des Stickstoffs in organischen Körpern” (New method for the determination of nitrogen in organic substances), Zeitschrift für analytische Chemie, 22(1): 366-383. Kumar MH and Sahib KH (2003). Genetic studies and correlations of biomass related characters in forage sorghum under abiotic stress conditions. J. Res. Amgrau. 31(3): 35-39. Kumar S, Gupta K and Joshi UN (2011). In: Sorghum: cultivation, varieties and uses. Nova Science Publisher, Inc. Mahajan RC, Wadikar PB, Pole SP and Dhuppe MV (2011). Variability, correlation and path analysis studies in sorghum. Research Journal of Agricultural Sciences, 2(1):101-103. Millinath V, Biradar BD, Chittapur BM, Salimath PM, Yenagi N and Patil SS (2004). Variability and correlation studies in pop sorghum. Karnataka Journal of Agricultural Sciences 17(3): 463-467. Mohammed RA, Mohammed MI and Osman AA (2012). J. Science and Technology, 13, 66-77. Nyadanu D and Dikera E (2014). Exploring variation, relationships and heritability of traits among selected accessions of sorghum (Sorghum bicolor L. Moench) in the upper east region of Ghana. J. Plant Breed. Genet. 2(3):101-107. Pahuja SK, Arya S, Kumari P and Panchta R (2014). Evaluation of forage sorghum hybrids (Sorghum bicolor (L.) Moench). Forage Res. 40 (3): 159-162. Pothisoong T and P Jaisil (2011). Yield Potential, heterosis and ethanol Production in F1 Hybrids of Sweet Sorghum (Sorghum bicolor (L.) Moench). KMITL Sci. Tech. J, 11, 17-24. Pholsen S and Suksri A (2007). Effects of Phosphorus and Potassium on Growth, Yield and Fodder Quality of IS 23585 Forage Sorghum Cultivar (Sorghum bicolor (L.) Moench). Pakistan Journal of Biological Sciences, 10: 1604-1610. 40 bitki ıslahçıları alt birliği www.bisab.org.tr Ekin Journal Saini ML and Paroda RS (1975). Inheritance of forage quality attributes in species of Eu-sorghum. Genet. Agr. 29: 371-373. Shinde MS, Awarl V R, Patil VR, Chava UD, Dalvi US and Gadakh SR (2015). CSV 30F: new high yielding single cut forage sorghum variety for kharif season. Forage Res., 41(3): 194-198. Tariq A, Sattar, Akram Z, Ghulam S, Muhammad G, Khalid S, Khan M, Shahid I and Talat M (2012). Character association and inheritance studies of different sorghum genotypes for fodder yield and quality under irrigated and rainfed conditions. African J.Biotech. 11(38): 9189-9195. Tilley JMA and Terry RA (1963). A two-stage technique for the in vitro digestion of forage crops. J. Brit. Grassland Soc. 18:104-111. Vision 2030. Indian Grasslan
Toplam 1 adet kaynakça vardır.
Ayrıntılar
| Bölüm | Makaleler |
|---|---|
| Yazarlar | |
| Yayımlanma Tarihi | 30 Temmuz 2016 |
| Yayımlandığı Sayı | Yıl 2016 Cilt: 2 Sayı: 2 |