Bailey and Dell, 1973BAILEY, R. L.; DELL, T. Quantifying diameter distributions with the Weibull function. Forest Science, v. 19, n. 2, p. 97-104, 1973.
|
Pinus banksiana
|
Bell-shaped |
55 |
n.a. |
Mowrer, 1986MOWRER, H. T. ASPNORM: a normal diameter distribution growth and yield model for aspen in the central Rocky Mountains. USDA For Serv Res Pap RM US Rocky Mt for Range Exp Stn. Fort Collins, Colo.: The Station, (RM-IT-264), 1986.
|
Populus tremuloides
|
Bell-shaped - Right skewed |
1-130 |
Natural |
Kamziah, 1998KAMZIAH, A. K. Development of diameter distribution yield prediction models for simulation of Acacia mangium plantations Doctoral dissertation, M. Sc. thesis, Univ. of Putra Malaysia, Malaysia, 1998.
|
Acacia mangium
|
Bell-shaped |
2-22 |
Plantation |
Scolforo et al., 2003SCOLFORO, J. R. S.; TABAI, F. C. V.; DE MACEDO, R. L. S. G.; ACERBI, F. W.; DE ASSIS, A. L. SB distribution’s accuracy to represent the diameter distribution of Pinus taeda, through five fitting methods. Forest Ecology and Management v. 175, n. 1, p. 489-496, 2003.
|
Pinus taeda
|
n.d. |
3-10 |
Plantation |
Fonseca, 2004FONSECA, T. F. Modelação do crescimento, mortalidade e distribuição, do pinhal bravo no Vale do Tâmega. Ph.D. dissertation Univ. of Trás-os-Montes e Alto Douro, Vila Real, Portugal, 2004.
|
Pinus pinaster
|
Regular shaped and non-uniform |
12 - 70 |
Natural and Plantation |
Nord-Larsen and Cao, 2006NORD-LARSEN, T.; CAO, Q. V. A diameter distribution model for even-aged beech in Denmark. Forest Ecology and Management v. 231, p. 218-225, 2006.
|
Fagus sylvatica
|
Bell-shaped - Right skewed |
1-140 |
Natural |
Borders et al., 2008BORDERS, B. E.; WANG, M.; ZHAO, D. Problems of scaling plantation plot diameter distributions to stand level. Forest Science v. 54, n. 3, p. 349-355, 2008.
|
Pinus elliottii
|
Bell-shaped |
17-24 |
Plantation |
Lei, 2008LEI, Y. Evaluation of three methods for estimating the Weibull distribution parameters of Chinese pine (Pinus tabulaeformis). Journal of Forest Science v. 54, n. 12, p. 566-571, 2008.
|
Pinus tabulaeformis
|
n.d. |
n. a. |
Plantation |
Fonseca et al., 2009FONSECA, T. F.; MARQUES, C. P.; PARRESOL, B. R. Describing Maritime pine diameter distributions with Johnson's SB distribution using a new all-parameter recovery approach. Forest Science v. 55, n. 4, p. 367-373, 2009.
|
Pinus pinaster
|
Bell-shaped |
n. a. |
Plantation |
Mateus and Tomé, 2011MATEUS, A.; TOMÉ, M. Modelling the diameter distribution of eucalyptus plantations with Johnson’s SB probability density function: parameters recovery from a compatible system of equations to predict stand variables. Annals of Forest Science v. 68, n. 2, p. 325-335, 2011.
|
Eucalyptus globulus
|
Bell-shaped |
1-24 |
Plantation |
Bergseng et al., 2015BERGSENG, E.; ØRKA, H. O.; NÆSSET, E.; GOBAKKEN T. Assessing forest inventory information obtained from different inventory approaches and remote sensing data sources. Annals of Forest Science, v. 72, p. 33-45, 2015.
|
Picea sp., Pinus sp. |
Bell shaped - Right Skewed |
n.a. |
Natural |
de Lima et al., 2015DE LIMA, R. A. F.; BATISTA, J. L. F.; PRADO, P. I. Modeling tree diameter distributions in natural forests: an evaluation of 10 statistical models. Forest Science v. 61, n. 2, p. 320-327, 2015.
|
n.a |
Bell-shaped |
n. a. |
Natural |
Özçelik et al., 2016ÖZÇELIK, R.; FIDALGO FONSECA, T. J.; PARRESOL, B. R.; ELER, Ü. Modeling the diameter distributions of Brutian pine stands using Johnson's SB distribution. Forest Science v. 62, n. 6, p. 587-593, 2016.
|
Pinus brutia
|
Bell-shaped |
29-95 |
Natural |
Ogana et al., 2017OGANA, F. N.; ITAM, E. S.; OSHO, J. S. Modeling diameter distributions of Gmelina arborea plantation in Omo Forest Reserve, Nigeria with Johnson’s SB. Journal of Sustainable Forestry v. 36, n. 2, p. 121-133, 2017.
|
Gmelina
arborea
|
Bell-shaped |
11-32 |
Plantation |
Arias-Rodil et al., 2018ARIAS-RODIL, M.; DIÉGUEZ-ARANDA, U.; ÁLVAREZ-GONZÁLEZ, J. G.; PÉREZ-CRUZADO, C.; CASTEDO-DORADO, F.; GONZÁLEZ-FERREIRO, E. Modeling diameter distributions in radiata pine plantations in Spain with existing countrywide lidar data. Annals of Forest Science, v. 75, p. 1-12, 2018.
|
Pinus radiata
|
n.d. |
12-41 |
Plantation |
Ezenwenyi et al., 2018EZENWENYI, J. U.; OLADOYE, A. O.; CHUKWU, O.; BASIRU, A. O. Diameter distribution of Nauclea diderrichii (D Wild) Merr. plantations in a restricted tropical rainforest of Nigeria. Journal of Research in Forestry, Wildlife and Environment v. 10, n. 3, p. 25-32, 2018.
|
Nauclea diderrichii
|
Bell-shaped |
42-46 |
Plantation |
Maltamo et al., 2018MALTAMO, M.; MEHTÄTALO, L.; VALBUENA, R.; VAUHKONEN, J.; PACKALEN, P. Airborne laser scanning for tree diameter distribution modelling: a comparison of different modelling alternatives in a tropical single-species plantation. Forestry: An International Journal of Forest Research v. 91, n. 1, p. 121-131, 2018.
|
Eucalyptus urograndis
|
Bell-shaped - Left skewed |
2-12 |
Plantation |
Mayrinck et al., 2018MAYRINCK, R. C.; FILHO, A. C. F.; RIBEIRO, A.; OLIVEIRA, X. M. D.; LIMA, R. R. D. A comparison of diameter distribution models for Khaya ivorensis A. Chev. plantations in Brazil. Southern Forests: A Journal of Forest Science v. 80, n. 4, p. 373-380, 2018.
|
African mahogan
|
Bell-shaped |
1-14 |
Plantation |
Pogoda et al., 2019POGODA, P.; OCHAŁ, W.; ORZEŁ, S. Modeling diameter distribution of black alder (Alnus glutinosa (L.) Gaertn.) stands in Poland. Forests, v. 10, n. 5, p. 412, 2019.
|
Alnus glutinosa
|
Bell-shaped |
20-80 |
n. a. |
Cosenza et al., 2019COSENZA, D. N.; SOARES, P.; GUERRA-HERNÁNDEZ, J.; PEREIRA, L.; GONZÁLEZ-FERREIRO, E.; CASTEDO-DORADO, F.; TOMÉ, M. Comparing Johnson’s SB and Weibull functions to model the diameter distribution of forest plantations through ALS data. Remote Sensing v. 11, n. 23, p. 2792, 2019.
|
Pinus radiata, Eucalyptus globulus
|
Bell-shaped |
n. a. |
Plantation |
Sun et al., 2019SUN, S.; CAO, Q. V.; CAO, T. Characterizing diameter distributions for uneven-aged pine-oak mixed forests in the Qinling Mountains of China. Forests v. 10, p. 596, 2019.
|
Pinus tabulaeformis, Pinus armandii, Quercus aliena
|
Bell-shaped- Right skewed |
n. a. |
Natural |
Pogoda et al., 2020POGODA, P.; OCHAŁ, W.; ORZEŁ, S. Performance of Kernel estimator and Johnson SB function for modeling diameter distribution of black alder (Alnus glutinosa (L.) Gaertn.) stands. Forests v. 11, n. 6, p. 634, 2020.
|
Alnus glutinosa
|
Bell shaped |
20-80 |
n. a. |
Gorgoso-Varela et al., 2020GORGOSO-VARELA, J. J.; OGANA, F. N.; IGE, P. O. A comparison between derivative and numerical optimization methods used for diameter distribution estimation. Scandinavian Journal of Forest Research v. 35, n. 3-4, p. 156-164, 2020.
|
Eucalyptus globulus, Pinus radiata, Gmelina arborea
|
Bell-shaped |
2-41 |
Plantation |
Adedoyin et al., 2021ADEDOYIN, E. D.; ADEOTI, O. O.; AWOSUSI, B. M.; ONILUDE, Q.; AINA-ODUNTAN, O. A. Evaluating diameter distribution model of Parkia biglobosa plantation (Jacq.) G. Don in Wasangare, Saki West Local Government Area of Oyo State, Nigeria. Journal of Forestry Research and Management, v. 18, n. 3, p. 198-206 2021.
|
Parkia biglobosa
|
Bell-shaped |
n.a. |
Plantation |
Bankston et al., 2021BANKSTON, J. B.; SABATIA, C. O.; POUDEL, K. P. Effects of sample plot size and prediction models on diameter distribution recovery. Forest Science v. 67, n. 3, p. 245-255, 2021.
|
Pinus taeda
|
n.d. |
8-31 |
Plantation |
Ciceu et al., 2021CICEU, A.; PITAR, D.; BADEA, O. Modeling the diameter distribution of mixed uneven-aged stands in the south western Carpathians in Romania. Forests v. 12, n. 7, p. 958, 2021.
|
Picea sp., Pinus sp., Abies sp. |
n.d. |
n. a. |
Natural |
Özçelik et al., 2022ÖZÇELIK, R.; CAO, Q. V.; KURNAZ, E.; KOPARAN, B. Modeling diameter distributions of mixed-oak stands in Northwestern Turkey. CERNE, v. 28, 2022.
|
Quercus cerris, Quercus petrae, Quercus frainetto
|
Bell shaped Right- skewed |
None |
Natural |
Sakıcı, 2021SAKICI, O. E. A Comparison of Diameter Distribution Models for Uneven-aged Kazdağı Fir Stands in Kastamonu Region of Turkey. Global Conference on Engineering Research, Türkiye, (02-05 June 2021), 2021.
|
Abies nordmanniana subsp. equi-trojani
|
n.d. |
n. a. |
Natural |
Sakıcı and Dal, 2021SAKICI, O. E.; DAL, E. Modelling diameter distributions and determination of their relationships with some stand characteristics for Scots pine stands in Kastamonu region. Journal of Bartin Faculty of Forestry v. 23, n. 3, p. 1026-1041, 2021.
|
Pinus sylvestris
|
n.d. |
n. a. |
Natural |
Vega et al., 2022VEGA, A. A.; CORRAL RIVAS, S.; CORRAL RIVAS, J. J.; DIÉGUEZ ARANDA, U. Modelling diameter distribution of natural forests in Pueblo Nuevo, Durango State. Revista Mexicana de Ciencias Revista Mexicana de Ciencias Forestales, v. 13, n. 73, p. 75-101, 2022.
|
Alnus sp., Arbutus sp., Quercus sp., Pinus sp., Juniperus sp. |
Irregular shaped |
n. a. |
Natural |