Araştırma Makalesi
Yıl 2024,
Accepted Papers, 1 - 7
Öz
Proje Numarası
2017K12-41003
Kaynakça
- Afzalinia S, Karimi A (2020): Barley cultivars and seed rated effects on energy and water productivity of green fodder production under hydroponic condition. Indian J Agric Res, 54, 792-796.
- Akbağ HI, Türkmen OS, Baytekin H, et al (2014): Effect of harvesting time on nutritional value of hydroponic barley production. Turk J Agric Nat Sci, 1, 1761-1765.
- Akman M, Güzel Ş, Gümüş H (2021): Comparison of the plant heights and relative feed values of triticale and vetch mixtures produced by a hydroponic system. Kocatepe Vet J, 14, 77-82.
- Al-Karaki GN, Al-Hashimi M (2012): Green fodder production and water use efficiency of some forage crops under hydroponic conditions. Agron, 10, 1-5.
- Al-Karaki GN, Al-Momani N (2011): Evaluation of some barley cultivars for green fodder production and water use efficiency under hydroponic conditions. Jordan J Agric Sci, 7, 3.
- Assefa, G, Urge M, Animut G, et al (2020): Effect of variety and seed rate on hydroponic maize fodder biomass yield, chemical composition and water use efficiency. Biotechnol Anim Husb, 36, 87-100.
- AOAC (1990): Association of Official Analytical Chemists. 69-88. In: K Helrich (Ed), Official Methods of Analysis. USA.
- Bargo, F, Muller LD, Delahoy JE, et al (2002): Performance of high producing dairy cows with three different feeding systems combining pasture and total mixed rations. J Dairy Sci, 85, 2948-2963.
- Bozyurt O, Özdemir MA (2017): Arctic oscillation’s many years trends and the effects of arctic oscillation over minimum mean temperature values in Turkey. Afyon Kocatepe Univ J Soc Sci, 19, 123-135.
- Dohme F, DeVries TJ, Beauchemin KA (2008): Repeated ruminal acidosis challenges in lactating dairy cows at high and low risk for developing acidosis: Ruminal pH. J Dairy Sci, 91, 3554–3567.
- El-Morsy AT, Abul-Soud M, Emam MSA (2013): Localized hydroponic green forage technology as a climate change adaptation under Egyptian conditions. Res J Agric Biol Sci, 9, 341-350.
- Emam MSA (2016): The sprout production and water use efficiency of some barley cultivars under intensive hydroponic system. Middle East J Agric Res, 5, 161-170.
- Fazaeli H, Golmohammadi HA. Shoayee AA, et al (2011): Performance of feedlot calves fed hydroponics fodder barley. J Agric Sci Tech, 13, 367-375.
- Fazaeli H, Golmohammadi HA, Tabatabayee SN, et al (2012): Productivity and nutritive value of barley green fodder yield in hydroponic system. World Appl Sci J, 16, 531-539.
- Gebremedhin WK, Deasi BG, Mayekar AJ (2015): Nutritional evaluation of hydroponically grown barley fodder. J Agric Egn Food Technol, 2, 86-89.
- Girma F, Gebremariam B (2018): Review on hydroponic feed value to livestock production. J Sci Innov Res, 7, 106-109.
- Gümüş H, Bayır AM (2020): The nutrient values of barley and oat green fodder produced by hasilmatik at different days. Mehmet Akif Ersoy Univ J Health Sci Inst, 8, 30-36.
- Hussain A, Iqbal K, Aziem S, et al (2014): A review on the science of growing crops without soil (soilless culture) a novel alternative for growing crops. Int J Agron Crop Sci, 7, 833-842.
- IBM SPSS (2022): IBM Corp. Released. IBM SPSS Statistics for Windows, Version 22.0. Armonk, NY: USA.
- Karaşahin M (2014): Effects of different applications on dry matter and crude protein yields in hydroponic barley grass production as a forage source. J Fac Agric Süleyman Demirel Univ, 9, 27-33.
- Karaşahin M (2016): The effects of different fertilization on hydroponic maize (Zea mays l. indentata s.) Grass. Res J Biol Sci, 9, 29-32.
- Kılıç Ü (2016): Hydroponic systems in forage production. TURJAF, 4, 793-799.
- Kirchgessner M, Kellner, RJ (1981): Estimation of the energetic feed value of green and forage feed through the cellulas method. Landwirtschschaftliche Forschung, 34, 276-281.
- MAFF (1976): Energy Allowances and Feeding Systems for Ruminants. 1st ed. Londo: Her Majesty’s Stationary Office.
- Moore JE, Undersander DJ (2002): Relative forage quality: an alternative to relative feed value and quality index. 16-31. Proceedings of. 13th Annual Florida Ruminant Nutrition Symposium. Florida, USA.
- Morgan J, Hunter RR, O’Haire R (1992): Limiting factors in hydroponic barley grass production. 241-261. In: Proceedings of 8th International Congress on Soilless Culture. Hunter’s Rest, South Africa.
- Naik PK, Dhuri RB, Swain BK, et al (2012): Nutrient changes with the growth of hydroponics fodder maize. Indian J Anim Nutr, 29, 161-163.
- Özdemir H, Temür C (2022): Increasing the feed values of barley, vetch and safflower mixtures in hydroponic fodder systems. Res Sq, 1-10..
- Peer DJ, Leeson S (1985): Feeding value of hydroponically sprouted barley for poultry and pigs. Anim Feed Sci Technol, 13, 183-190.
- Saidi ARM, Omar JA (2015): The biological and economical feasibility of feeding barley green fodder to lactating Awassi ewes. Open J Anim Sci, 5, 99-100.
- Sarıçiçek BZ, Yıldırım B, Hanoğlu H (2018): The comparison of nutrient composition and relative feed value of barley grain, barley green food and silage grown with grounded system of barley grass grown with hydroponic system. Black Sea J Agric, 1, 102-109.
- Schingoethe DJ (2017): A 100-year review: Total mixed ration feeding of dairy cows. J Dairy Sci, 100, 10143–10150.
- Sneath R, Mclntosh F (2003): Review of hydroponic fodder production for beef cattle. Department of Primary Industries: Queensland Australia 84. McKeehen, p.54.
Comparison of the fodder yield, nutritive value and cost of triticale and vetch mixtures under hydroponic condition
Öz
This study was carried out determine the effects of different ratios of triticale and vetch seed and use of fertilizer on fodder yield, nutritive value and cost of fodder grown. The treatments included five ratios of triticale to vetch seeds at 100:0, 90:10, 80:20, 70:30, and 0:100 (V0, V10, V20, V30, and V100; respectively and a fertilizer treatment (with (+) or without (-) fertilizer). The experiment was a completely randomized design in factorial arrangements (five seed treatments and two fertilizer treatments). Considering the yield performance, differences were found among treatments with the highest yield (21.78 kg fresh weight m-2) for V0+ and lowest (18.48 kg fresh weight m-2) for V100-. With increasing proportions of vetch, ash, crude protein and acid detergent fiber increased linearly, whereas neutral detergent fiber and nitrogen free extract decreased linearly. The crude fiber was lowest (8.43%) for V0+ and highest (10.26%) for V100+ fodders, respectively. Highest neutral detergent fiber was observed for V0- while V100- revealed the lowest neutral detergent fiber. The acid detergent fiber was lowest for V0+ compared with all other treatments. The nitrogen free extract content in V0+ fodder were gradually higher than that of other fodders. The fodder’s energy value was significantly different among the treatments. The results in the study showed that the seed cost was the highest in the V0+ fodder to produce one kg fresh fodder. The higher expense for one kg CP and one unit energy (MJ kg-1) was obtained in V0 fodder, as well.
Anahtar Kelimeler
Destekleyen Kurum
This study was supported within the scope of Burdur Mehmet Akif Ersoy University Regional Development-Oriented Mission Differentiation and Specialization Program, Livestock Project numbered 2017K12-41003."
Proje Numarası
2017K12-41003
Teşekkür
This research article was summarized from the first author’s master thesis.
Kaynakça
- Afzalinia S, Karimi A (2020): Barley cultivars and seed rated effects on energy and water productivity of green fodder production under hydroponic condition. Indian J Agric Res, 54, 792-796.
- Akbağ HI, Türkmen OS, Baytekin H, et al (2014): Effect of harvesting time on nutritional value of hydroponic barley production. Turk J Agric Nat Sci, 1, 1761-1765.
- Akman M, Güzel Ş, Gümüş H (2021): Comparison of the plant heights and relative feed values of triticale and vetch mixtures produced by a hydroponic system. Kocatepe Vet J, 14, 77-82.
- Al-Karaki GN, Al-Hashimi M (2012): Green fodder production and water use efficiency of some forage crops under hydroponic conditions. Agron, 10, 1-5.
- Al-Karaki GN, Al-Momani N (2011): Evaluation of some barley cultivars for green fodder production and water use efficiency under hydroponic conditions. Jordan J Agric Sci, 7, 3.
- Assefa, G, Urge M, Animut G, et al (2020): Effect of variety and seed rate on hydroponic maize fodder biomass yield, chemical composition and water use efficiency. Biotechnol Anim Husb, 36, 87-100.
- AOAC (1990): Association of Official Analytical Chemists. 69-88. In: K Helrich (Ed), Official Methods of Analysis. USA.
- Bargo, F, Muller LD, Delahoy JE, et al (2002): Performance of high producing dairy cows with three different feeding systems combining pasture and total mixed rations. J Dairy Sci, 85, 2948-2963.
- Bozyurt O, Özdemir MA (2017): Arctic oscillation’s many years trends and the effects of arctic oscillation over minimum mean temperature values in Turkey. Afyon Kocatepe Univ J Soc Sci, 19, 123-135.
- Dohme F, DeVries TJ, Beauchemin KA (2008): Repeated ruminal acidosis challenges in lactating dairy cows at high and low risk for developing acidosis: Ruminal pH. J Dairy Sci, 91, 3554–3567.
- El-Morsy AT, Abul-Soud M, Emam MSA (2013): Localized hydroponic green forage technology as a climate change adaptation under Egyptian conditions. Res J Agric Biol Sci, 9, 341-350.
- Emam MSA (2016): The sprout production and water use efficiency of some barley cultivars under intensive hydroponic system. Middle East J Agric Res, 5, 161-170.
- Fazaeli H, Golmohammadi HA. Shoayee AA, et al (2011): Performance of feedlot calves fed hydroponics fodder barley. J Agric Sci Tech, 13, 367-375.
- Fazaeli H, Golmohammadi HA, Tabatabayee SN, et al (2012): Productivity and nutritive value of barley green fodder yield in hydroponic system. World Appl Sci J, 16, 531-539.
- Gebremedhin WK, Deasi BG, Mayekar AJ (2015): Nutritional evaluation of hydroponically grown barley fodder. J Agric Egn Food Technol, 2, 86-89.
- Girma F, Gebremariam B (2018): Review on hydroponic feed value to livestock production. J Sci Innov Res, 7, 106-109.
- Gümüş H, Bayır AM (2020): The nutrient values of barley and oat green fodder produced by hasilmatik at different days. Mehmet Akif Ersoy Univ J Health Sci Inst, 8, 30-36.
- Hussain A, Iqbal K, Aziem S, et al (2014): A review on the science of growing crops without soil (soilless culture) a novel alternative for growing crops. Int J Agron Crop Sci, 7, 833-842.
- IBM SPSS (2022): IBM Corp. Released. IBM SPSS Statistics for Windows, Version 22.0. Armonk, NY: USA.
- Karaşahin M (2014): Effects of different applications on dry matter and crude protein yields in hydroponic barley grass production as a forage source. J Fac Agric Süleyman Demirel Univ, 9, 27-33.
- Karaşahin M (2016): The effects of different fertilization on hydroponic maize (Zea mays l. indentata s.) Grass. Res J Biol Sci, 9, 29-32.
- Kılıç Ü (2016): Hydroponic systems in forage production. TURJAF, 4, 793-799.
- Kirchgessner M, Kellner, RJ (1981): Estimation of the energetic feed value of green and forage feed through the cellulas method. Landwirtschschaftliche Forschung, 34, 276-281.
- MAFF (1976): Energy Allowances and Feeding Systems for Ruminants. 1st ed. Londo: Her Majesty’s Stationary Office.
- Moore JE, Undersander DJ (2002): Relative forage quality: an alternative to relative feed value and quality index. 16-31. Proceedings of. 13th Annual Florida Ruminant Nutrition Symposium. Florida, USA.
- Morgan J, Hunter RR, O’Haire R (1992): Limiting factors in hydroponic barley grass production. 241-261. In: Proceedings of 8th International Congress on Soilless Culture. Hunter’s Rest, South Africa.
- Naik PK, Dhuri RB, Swain BK, et al (2012): Nutrient changes with the growth of hydroponics fodder maize. Indian J Anim Nutr, 29, 161-163.
- Özdemir H, Temür C (2022): Increasing the feed values of barley, vetch and safflower mixtures in hydroponic fodder systems. Res Sq, 1-10..
- Peer DJ, Leeson S (1985): Feeding value of hydroponically sprouted barley for poultry and pigs. Anim Feed Sci Technol, 13, 183-190.
- Saidi ARM, Omar JA (2015): The biological and economical feasibility of feeding barley green fodder to lactating Awassi ewes. Open J Anim Sci, 5, 99-100.
- Sarıçiçek BZ, Yıldırım B, Hanoğlu H (2018): The comparison of nutrient composition and relative feed value of barley grain, barley green food and silage grown with grounded system of barley grass grown with hydroponic system. Black Sea J Agric, 1, 102-109.
- Schingoethe DJ (2017): A 100-year review: Total mixed ration feeding of dairy cows. J Dairy Sci, 100, 10143–10150.
- Sneath R, Mclntosh F (2003): Review of hydroponic fodder production for beef cattle. Department of Primary Industries: Queensland Australia 84. McKeehen, p.54.
Toplam 33 adet kaynakça vardır.
Ayrıntılar
| Birincil Dil | İngilizce |
|---|---|
| Konular | Zootekni, Genetik ve Biyoistatistik |
| Bölüm | Araştırma Makalesi |
| Yazarlar | |
| Proje Numarası | 2017K12-41003 |
| Erken Görünüm Tarihi | 15 Kasım 2024 |
| Yayımlanma Tarihi | |
| Gönderilme Tarihi | 21 Aralık 2023 |
| Kabul Tarihi | 22 Nisan 2024 |
| Yayımlandığı Sayı | Yıl 2024Accepted Papers |