A new method for early prediction of Turkish red pine (Pinus brutia Ten.) germination percentage

Alvarado, V., Bradford, K. J., 2002: A hydrothermal time model explains the cardinal temperatures for seed germination. Plant, Cell and Environment, 25:1061– 1069.Search in Google Scholar

Andersen, G. L., Krzywinski, K., Gjessing, H. K., Pierce, R. H., 2016: Seed viability and germination success of Acacia tortilis along land-use and aridity gradients in the Eastern Sahara. Ecology and Evolution, 6:256–266.Search in Google Scholar

Aydin, A. C., 2016: Biomass Studies on Taurus Cedar (Cedrus libani A. Rich.). (Doctoral dissertation, Süleyman Demirel University, Isparta, Turkey).Beal, S. L., 2005: Conditioning on certain random events associated with statistical variability in PK/PD. Journal of Pharmacokinetics and Pharmacodynamics, 32:213–243.Search in Google Scholar

Bewley, J. D., Black, M., 1994: Seeds; physiology of development and germination. New York, Plenum, 367 p.Search in Google Scholar

Bonner, F. T., 1991: Leachate conductivity: a rapid nondestructive test for pine seed quality. Tree Planter’s Notes, 42:41–44.Search in Google Scholar

Brown, R. F., Mayer, D. G., 1988: Representing cumulative germination. 2. The use of the Weibull function and other empirically derived curves. Annals of Botany, 61:127–138.Search in Google Scholar

Çalikoğlu, M., 2013: Kizilçam (Pinus brutia Ten.)’da tohum sizintisinin iletkenliğini ölçerek çimlenme yüzdesinin tahmini. Project report, General Directorate of Forestry, Antalya, Turkey.Search in Google Scholar

Çalişkan, S., Makineci, E., 2015: Effects of carbon and nitrogen content on seed germination of calabrian pine (Pinus brutia) populations. Bosque, 36:435– 443.Search in Google Scholar

Czabator, F. J., 1962: Germination value: an index combining speed and completeness of pine seed germination. Forest Science, 8:386–396.Search in Google Scholar

Dahal, P., Bradford, K. J., 1994: Hydrothermal time analysis of tomato seed germination at suboptimal temperature and reduced water potential. Seed Science Research, 4:71–80.Search in Google Scholar

Diavanshir, K., Pourbeik, H., 1976: Germination value a new formula. Silvae Genetica, 25:79–83.Search in Google Scholar

Ercanli, Ì., Güvendi, E., Güney, D., Günlü, A., Altun, L., 2008: Sinop Yöresi Sahilçami (Pinus pinaster Ait.) ağaçlandirmalarina ilişkin tek ve çift girişli ağaç hacim tablolarinin düzenlenmesi. Kastamonu Üniversitesi Orman Fakültesi Dergisi, 8:14–25.Search in Google Scholar

Ercanli, Ì., 2010: Trabzon ve giresun orman bölge müdürlükleri sinirlari içerisinde yer alan doğu ladini (Picea orientalis [L.] Link)-sariçam (Pinus sylvestris L.) karişik meşcerelerine ilişkin büyüme modelleri. (Doctoral dissertation, Karadeniz Technical University, Trabzon, Turkey).Search in Google Scholar

Ercanli, Ì ., Kahriman, A. 2015: The evaluation of different forest structural indices to predict the stand aboveground biomass of even-aged scotch pine (Pinus sylvestris L.) forests in kunduz, Northern Turkey. Environmental Monitoring and Assessment, 187:90.Search in Google Scholar

Galan, J. M .G., Prada, C., Martínez-Calvo, C., Lahoz- Beltrá, R., 2015: A Gompertz regression model for fern spores germination. In Anales del Jardín Botánico de Madrid, 72:e15.Search in Google Scholar

Hann, D. W., 1995: A key to the literature presenting site-index and dominant-height-growth curves and equations for species in the Pacific Northwest and California. Research Contribution No. 7, Forest Research Laboratory, Oregon State University, Corvallis, USA, 26 p.Search in Google Scholar

Hussain, S., Zheng, M., Khan, F., Khaliq, A., Fahad, S., Peng, S. et al., 2015: Benefits of rice seed priming are offset permanently by prolonged storage and the storage conditions. Sci Rep 5:8101.Search in Google Scholar

Joosen, R. V., Kodde, J., Willems, L. A., Ligterink, W., van der Plas, L. H., Hilhorst, H. W., 2010: Germina- tor: a software package for high-throughput scoring and curve fitting of Arabidopsis seed germination. The Plant Journal, 62:148–159.Search in Google Scholar

Kalipsiz, A., 1999: Dendrometri. Istanbul Üniversitesi Orman Fakültesi Yayinlari, 354 p.Search in Google Scholar

Lehle, F. R., Putnam, A. R., 1982: Quantification of Allelopathic Potential of Sorghum Residues by Novel Indexing of Richards Function Fitted to Cumulative Cress Seed Germination Curves. Plant Physiology, 69:1212–1216.Search in Google Scholar

Meyer, S. E., Debaene-Gill, S. B., Allen, P. S., 2000: Using hydrothermal time concepts to model seed germination response to temperature, dormancy loss, and priming effects in Elymus elymoides. Seed Science Research, 10:213–223.Search in Google Scholar

Ochuodho, J. O., Modi, A. T., 2006: Statistical evaluation of the germination of Cleome gynandra L. seeds. South African Journal of Plant and Soil, 23:310–315.Search in Google Scholar

Özçelik, R., Karaer, K., 2016: Eğirdir Yöresi doğal kizilçam ve karaçam meşcereleri için ticari hacim denklemlerinin geliştirilmesi. Journal of the Faculty of Forestry Istanbul University, 66:59–74.Search in Google Scholar

Pretzsch, H., 2009: Forest dynamics, growth, and yield. In: Forest Dynamics, Growth and Yield. Berlin, Heidelberg, 664 p.Search in Google Scholar

Ranal, M. A., Santana, D. G. D., 2006: How and why to measure the germination process? Brazilian Journal of Botany, 29:1–11.Search in Google Scholar

Ranal, M. A., Santana, D. G. D., Ferreira, W. R., Mendes- Rodrigues, C., 2009: Calculating germination measurements and organizing spreadsheets. Brazilian Journal of Botany, 328:49–855.Search in Google Scholar

Reed, D. D., Green, E. J ., 1984: Compatible stem taper and volume ratio equations. Forest Science, 30:977– 990.Search in Google Scholar

Shafii, B., Price, W. J., Swensen, J. B., Murray, G. A., 1991: Nonlinear estimation of growth curve models for germination data analysis. Proceedings of 1991 Kansas State University Conference on Applied Statistics in Agriculture. Manhattan, KS: Kansas State University.Search in Google Scholar

Shah Newaz, M., Millat-e-Mustafa, M., 2004: Growth and yield prediction models for Acacia mangium grown in the plantations of the central region of Bangladesh. New Forests, 27:81–88.Search in Google Scholar

Sorensen, A., Lauridsen, E. B., Thomsen, K., 1996: Electrical conductivity test. Technical Note, 45:1–19. Danida Forest Seed Centre, Denmark.Search in Google Scholar

Stoeckeler, J. H., Slabaugh, P. E. 1965: Conifer nursery practice in the prairie-plains. US Department of Agriculture Handbook 279, Washington, D.C.Search in Google Scholar

Thomson, A. J., El-Kassaby, Y. A., 1993: Interpretation of seed-germination parameters. New Forests, 7:123– 132.Search in Google Scholar

Tilki, F., Çalikoğlu, M., 1998: Tohum gücü ve orman ağaci türlerinde test edilmesi. Istanbul Üniversitesi Orman Fakültesi Dergisi, 48:67–80.Search in Google Scholar

Torres, M., Frutos, G., 1989: Analysis of germination curves of aged fennel seeds by mathematical models. Environmental and Experimental Botany, 29:409–415.Search in Google Scholar

Torres, M., Frutos, G., 1990: Logistic function analysis of germination behaviour of aged fennel seeds. Environmental and Experimental Botany, 30:383–390.Search in Google Scholar

Weisberg, S., 2005: Applied linear regression. 528). John Wiley & Sons.Search in Google Scholar

Yavuz, H., 1999: Taşköprü yöresinde karaçam için hacim fonksiyonlari ve hacim tablolari. Turkish Journal of Agriculture and Forestry, 23:1181–1188.Search in Google Scholar

ISTA, 1996: International Rules For Seed Testing. Seed Science and Technology (Supplement). 24:241–335.Search in Google Scholar

SigmaPlot, 2006: SigmaPlot version 10. Scientific Software Solutions Internationals, San Jose, CA. Search in Google Scholar