Pekin Ördeği (Anas platyrhynchos f. dom.)Yumurtalarında Kabuk Kalınlığı, Gözenek Sayısı ve Gözenek Yoğunluğundaki Bölgesel Farklılıklar
Abstract
Pekin ördeklerinin (Anas platyrhynchos f. dom.) günlük yumurtalarında kabuk kalınlığı, gözenek sayı ve yoğunluğu küt uç, ekvator ve sivri uç olmak üzere üç farklı bölgede tespit edildi. Kabuk kalınlığının küt uçtan sivri uca doğru artmaya eğilimli olduğu gözlendi. Yumurta kabuğunda gözenek yoğunluğu eşit bir şekilde dağılış göstermedi. Yumurta kabuğunda gözenek sayısının hem küt uç, hem de sivri uçla karşılaştırıldığında, ekvatoral bölgede belirli bir şekilde azalma gösterdiği gözlendi.
References
- (1) Wangensteen, OD and H Rahn, 1970/71. Respiratory gas exchange by the avian embryo.— Respir. Physiol. 11: 31-45.
- (2) Rahn, H and CV Paganelli, 1990. Gas fluxes in avian eggs: Driving forces and the pathway for exchange.— Comp. Biochem. Physiol. 95A: 115.
- (3) Rahn, H and A Ar, 1974. The avian egg: Incubation time and water loss.— Condor 76: 147-152.
- (4) Rahn, H and CV Paganelli, A Ar, 1974. The avian egg: Air-cell gas tension, metabolism and incubation time.— Respir. Physiol. 22: 297-309.
- (5) Tullett, SG, 1984. The porosity of avian eggshell.— Comp. Biochem. Physiol. 78A: 5-13.
- (6) Sotherland, PR and GC Packard, TL Taigen, TJ Boardman, 1980. An altitudinal decline in conductance of cliff swallow (Petrocheridon pyrrhonata) eggs to water vapor.— Auk 97: 177185.
- (7) Hoyt, DF and RG Board, H Rahn, CV Paganelli, 1979. The eggs of the Anatidae: Conductance, pore structure and metabolism.— Physiol. Zool. 52: 438-450.
- (8) Booth, DT, RS Seymour, 1987. Effect of eggshell thinning on water vapor conductance of malleefowl eggs.— Condor 89: 453-459.
- (9) Booth, DT, 1989. Regional changes in shell thickness, shell conductance, and pore structure during incubation in eggs of the mute swan.— Physiol. Zool. 62: 607-620.
- (10) Booth, DT and PR Sotherland, 1991. Oxygen consumption, air-cell gas tensions, and incubation parameters of mute swan eggs.— Physiol. Zool. 64: 473-484.
- (11) Paganelli, CV and A Olszowka, A Ar, 1974. The avian egg: Surface area, volume and density.— Condor 76: 319-325.
- (12) Rahn, H and CV Paganelli, 1989a. Shell mass, thickness and density of avian eggs derived from the tables of Schönwetter.— J. Orn. 130: 59-68.
- (13) Rahn, H and A Ar, 1980. Gas exchange of the avian egg: Time, structure and function.— Amer. Zool. 20: 477-484.
- (14) Rokitka, MA and H Rahn, 1987. Regional differences in shell conductance and pore density of avian eggs. Respir. Physiol. 68: 371-376.
- (15) Christensen, VL, 1983. Distribution of pores on hatching and non-hatching turkey eggs. Poultry Sci. 62: 1312-1316.
- (16) Chakravarty, S and A Mandal, P Lahiri, 1986. Effect of lindane on eggshel characteristics and calcium level in the domestic duck. Toxicology. 42: 245-258.
Year 2006,
Volume: 10 Issue: 2, 193 - 196, 10.04.2009
Abstract
References
- (1) Wangensteen, OD and H Rahn, 1970/71. Respiratory gas exchange by the avian embryo.— Respir. Physiol. 11: 31-45.
- (2) Rahn, H and CV Paganelli, 1990. Gas fluxes in avian eggs: Driving forces and the pathway for exchange.— Comp. Biochem. Physiol. 95A: 115.
- (3) Rahn, H and A Ar, 1974. The avian egg: Incubation time and water loss.— Condor 76: 147-152.
- (4) Rahn, H and CV Paganelli, A Ar, 1974. The avian egg: Air-cell gas tension, metabolism and incubation time.— Respir. Physiol. 22: 297-309.
- (5) Tullett, SG, 1984. The porosity of avian eggshell.— Comp. Biochem. Physiol. 78A: 5-13.
- (6) Sotherland, PR and GC Packard, TL Taigen, TJ Boardman, 1980. An altitudinal decline in conductance of cliff swallow (Petrocheridon pyrrhonata) eggs to water vapor.— Auk 97: 177185.
- (7) Hoyt, DF and RG Board, H Rahn, CV Paganelli, 1979. The eggs of the Anatidae: Conductance, pore structure and metabolism.— Physiol. Zool. 52: 438-450.
- (8) Booth, DT, RS Seymour, 1987. Effect of eggshell thinning on water vapor conductance of malleefowl eggs.— Condor 89: 453-459.
- (9) Booth, DT, 1989. Regional changes in shell thickness, shell conductance, and pore structure during incubation in eggs of the mute swan.— Physiol. Zool. 62: 607-620.
- (10) Booth, DT and PR Sotherland, 1991. Oxygen consumption, air-cell gas tensions, and incubation parameters of mute swan eggs.— Physiol. Zool. 64: 473-484.
- (11) Paganelli, CV and A Olszowka, A Ar, 1974. The avian egg: Surface area, volume and density.— Condor 76: 319-325.
- (12) Rahn, H and CV Paganelli, 1989a. Shell mass, thickness and density of avian eggs derived from the tables of Schönwetter.— J. Orn. 130: 59-68.
- (13) Rahn, H and A Ar, 1980. Gas exchange of the avian egg: Time, structure and function.— Amer. Zool. 20: 477-484.
- (14) Rokitka, MA and H Rahn, 1987. Regional differences in shell conductance and pore density of avian eggs. Respir. Physiol. 68: 371-376.
- (15) Christensen, VL, 1983. Distribution of pores on hatching and non-hatching turkey eggs. Poultry Sci. 62: 1312-1316.
- (16) Chakravarty, S and A Mandal, P Lahiri, 1986. Effect of lindane on eggshel characteristics and calcium level in the domestic duck. Toxicology. 42: 245-258.
There are 16 citations in total.
Details
| Primary Language | English |
|---|---|
| Journal Section | TEMEL BİLİMLER |
| Authors | |
| Publication Date | April 10, 2009 |
| Published in Issue | Year 2006 Volume: 10 Issue: 2 |