14.

Quiñonez-Barraza et al. (2020). Modeling Biometric Attributes from Tree Height Using Un-manned Aerial Vehicles (UAV) in Natural Forest Stands. Rev. Chapingo Ser Cien For Amb (Accepted).Ingeniería e Investigacion 43(2) 1-7.

13.

Quiñonez-Barraza et al. (2020). Height-Diameter-Age equations systems for Pinus arizonica Engelman. and 5 Pinus durangensis Martínez in mixed-species forests of Durango, Mexico. Rev. Chapingo Ser Cien For Amb 26(2) 221-240.

12.

Quiñonez-Barraza et al. (2020). An approximate growth height and site index model for Quercus sideroxyla Bonpl. in mixed-species forests of Durango Mexico. Rev. Chapingo Ser Cien For Amb 26(1): 53-69.

11.

Quiñonez-Barraza et al. (2019). Compatible Taper and Stem Volume Equations for Five Pine Species in Mixed-Species Forests in Mexico. Forest Science 65(5) 602-613.

10.

Quiñonez-Barraza et al. (2019). Can an Exponential Function Be Applied to the Asymptotic Density–Size Relationship? Two New Stand-Density Indices in Mixed-Species Forests. Forests 10(9): 1-19.

9.

Quiñonez-Barraza et al. (2019). Compatible taper, volume, green weight, biomass and carbon concentration system for Quercus sideroxyla Bonpl. Rev Chapingo Ser Cien For Amb 25(1): 49-69.

8.

Quiñonez-Barraza et al. (2018). ¿How to correct the heterocedasticity and autocorrelation of residuals in taper and height growth models?. Rev Mex Cien For 9(49): 28-59.

7.

Quiñonez-Barraza et al. (2018). Considering neighborhood effects improves individual dbh-growth models for natural mixed-species forests in Mexico. Ann For Sci 75(78):1-11.

6.

Quiñonez-Barraza et al. (2018). Maximum density and density management diagram for mixed-species forests in Durango, Mexico. Rev Chapingo Ser Cien For Amb  24(1): 73-90.

5.

Quiñonez-Barraza et al. (2015). Diameter at breast height growth for Pinus in Durango State. Rev Mex Cien For 6(29). 108-125.

4.

Quiñonez-Barraza et al. (2015). Dynamic modeling for diameter distribution on Pinus mixed stands in Durango, Mexico. Madera y Bosques 21(2): 59-71.

3.

Quiñonez-Barraza et al (2015). Site index with complex polymorphism of forest stands in Durango Mexico. Agrociencia 49: 439-454.

2.

Quiñonez-Barraza et al (2014). Compatible taper and merchantable volume system in Durango Mexico. Agrociencia 48: 553-567.

1.

Quiñonez-Barraza et al. (2012). Diameter, height and volume estimation from stump of forest species of Durango state. Rev Mex Cien For 3(9): 23-39.

Published articles

44.

Cruz-Cobos et al. (2023). Taper and merchantable volume systems for two Pinus species in Durango, Mexico. Rev Mex Cienc For 14(77) 76-102. 

43.

Rascon-Solano et al. (2023). Effect of silvicultural treatment of individual selection on the horizontal structure of a pine-oak forest in northern Mexico. Notulae Botanicae Horti Agrobotanici Cluj-Napoca 51(2) 1-19. 

42.

Yuduan et al. (2023). Effects of Land‐Use Types on Topsoil Physicochemical Properties in a Tropical Coastal Ecologically Fragile Zone of South China. Sustainability 15(5484) 1-16. 

41.

García-Espinoza et al. (2023). Site quality equations for Abies religiosa in different regions of Mexico. Madera y Bosques 27(3) 1-14. 

40.

Zuñiga-Vazquez et al. (2023). Site quality equations for Abies religiosa in different regions of Mexico. Madera y Bosques 27(3) 1-14. 

39.

Cabral-Alemán et al. (2023). Site quality equations for Abies religiosa in different regions of Mexico. Madera y Bosques 27(3) 1-14. 

38.

Hernández-Ramos et al. (2023). Site quality equations for Abies religiosa in different regions of Mexico. Madera y Bosques 27(3) 1-14. 

37.

García-Cuevas et al. (2022). Site quality equations for Abies religiosa in different regions of Mexico. Madera y Bosques 27(3) 1-14. 

36.

Nava-Nava et al. (2022). Site quality equations for Abies religiosa in different regions of Mexico. Madera y Bosques 27(3) 1-14. 

35.

Cabral-Alemán et al. (2022). Site quality equations for Abies religiosa in different regions of Mexico. Madera y Bosques 27(3) 1-14. 

34.

Zuñiga-Vazquez et al. (2022). Site quality equations for Abies religiosa in different regions of Mexico. Madera y Bosques 27(3) 1-14. 

33.

Santiago-García et al. (2022). Site quality equations for Abies religiosa in different regions of Mexico. Madera y Bosques 27(3) 1-14. 

32.

Tamarit-Urias et al. (2022). New dynamic equation of dominant height and site index for Pinus chiapensis (Martínez) Andresen in Puebla and Veracruz, Mexico. Rev Chap Cienc For Amb 28(3) 332-347. 

31.

Guzman-Santiago et al. (2022). Site quality equations for Abies religiosa in different regions of Mexico.Colombia Forestal 25(1) 77-94. 

30.

Tamarit-Urias et al. (2021). Dynamic equation to estimate the growth in diameter of Pinus montezumae Lamb. in Puebla, Mexico. Madera y Bosque 27(3) 1-16. 

29.

Guzman-Santiago et al. (2021). Site quality equations for Abies religiosa in different regions of Mexico. Madera y Bosque 27(3) 1-14. 

28.

Flores-Morales et al. (2021). Taper-volume models for Pinus pseudostrobus Lindl. in south of Nuevo Len, Mexico. Madera y Bosques 27(2) 1-12. 

27.

Castillo-López et al. (2021). Compatible Taper and Volume Systems Based on Volume Ratio Models for Four Pine Species in Oaxaca Mexico. Forests 12(145) 1-15. 

26.

Villanueva-Días et al. (2021). Annual radial growth and climatic response of Quercus crassifolia bonpl. in northwestern Durango, Mexico. Trees 35(1) 783-798. 

25.

Guevara-Ficher et al. (2021). Effect of clearcutting on tree regeneration diversity in Durango, Mexico. Rev Mex Cienc For 12(63) 28-47.

24.

Tamarit-Urias et al. (2020). Methodological aspects to generate density management
diagrams based on the diagrams based on Reineke ́s index. Rev Mex Cienc For
11(61): 6-26

23.

Hernández-Ramos et al. (2020). Height-diameter models with mixed effects for Lysiloma latisiliquum (L) Benth. in Quintana Roo, Mexico. Madera y Bosques 26(2): 1-36

22.

Santiago-García et al. (2020). Avances y perspectivas de la modelación aplicada a la planeación forestal en México. Madera y Bosques 26(2): 1-38

21.

Briseño-Reyes et al. (2020). Individual Tree Diameter and Height Growth Models for 30 Tree Species in Mixed-Species and Uneven-Aged Forests of Mexico. Forests 11(429): 1-16

20.

Pérez-López et al. (2019). Estimación de distribuciones diamétricas para Pinus patula con la función Weibull. Madera y Bosques 25(3): 1-18

19.

Flores-Morales et al. (2019). Normal diameter, height and volume estimation of Pinus
pseudostrobus Lindl. from the diameter of the stump. Rev Mex Cien For 10(55): 154-170.

18.

Corral-Rivas et al. (2019). A generalized nonlinear height–diameter model with mixed-effects for seven Pinus species in Durango, Mexico. Rev Mex Cien For 10(53): 86-117.

17.

Martínez-Angel et al. (2019). Compatible taper and volume functions in a commerciala forest plantation of Pinus chapensis (Martínez) Adressen in Tlatlauiquitepec, Puebla. Agrociencia 53(3): 381-401.

16.

Tamarit-Urías et al. (2019). A stand density diagram for Pinus patula Schiede ex Schltdl. & Cham.in Puebla, Mexico. Rev Mex Cien For 25(1): 157-181.

15.

García-Espinoza et al. (2019). Global-local and fixed-random parameters to model dominant height growth of Pinus  pseudostrobus Lindley. Rev Chapingo Cien For Amb 25(1): 141-156.

14.

Cabrera-Pérez et al. (2019). Density management diagram for mixed-species forests in the El Salto region, Durango, Mexico. Rev Chapingo Cien For Amb 25(1): 17-29.

13.

Uranga-Valencia et al. (2018). Explicit growth system for commercial forest plantations of Pinus patula schiede ex schltfl. Et cham. Revista Científica Biológico Agropecuaria Tuxpan 6(2): 97-106.

12.

Uranga-Valencia et al. (2018). Weibull distribution for Pinus patula schiede ex schltdl. Et. Cham. In commercial forest plantations. Revista Científica Biológico Agropecuaria Tuxpan 6(2): 45-53.

11.

Castillo-López et al. (2018). Dynamic site index models for four pine species in Oaxaca. Rev Mex Cien For 9(49): 4-27

10.

Garcia-Espinoza et al. (2018). Taper and volume systems based on ratio equations for Pinus pseudostrobus Lindl. in Mexico. Forests 9(344): 1-14

9.

Ramírez-Martínez et al. (2018) Taper and total volume model for  Pinus ayacahuite Ehren. Madera y Bosques 24(2): 1-30

8.

Fierror-Mateo et al. (2018). Sampling estimators for the inventory of Pinus chiapensis (Martínez) Andresen plantations Rev Mex Cienc For 9(42): 131-150

7.

Valenzuela et al. (2018). Variable-top stem biomass equations at tree-level generated by a simultaneous density-integral system for second growth forests of roble, raulí and coigüe in Chile J. For. Res (2018) 1-18

6.

Santiago-Garcia et al. (2017). A dynamic system of growth and yield equations for Pinus patula forest 8(465): 1-13

5.

López-Villegas et al. (2017). Global and local height-diameter equations for 12 species of merchantable interest in managed forest . Rev Mex Agoec 4(2): 113-126

4.

García-Cuevas et al. (2017). Prediction of the normal diameter, height and volume from the stump diameter in tropical species. Rev Mex Cien For 8(43): 89-116

3.

Tamarit-Urias et al. (2017). Cubing system for individual Quercus spp. trees in forests under management in Puebla, Mexico Rev Mex Cien For 8(40): 69-88

2.

González-Mendez et al. (2016). Dominant height growth model for Pinus pseudostrobus Lindl. in Guerrero state. Rev Mex Cien For 7.37. 7-20

1.

Ramírez-Martínez et al. (2016). Stem volume models for Pinus ayacahuite Ehren Rev Mex Agroec 3(2): 61-74

Published articles

4.

Tamarit-Urias et al. (2016). Diagramas para manejar la densidad de coníferas en la región de Chignahuapan-Zacatlan, Puebla. INIFAP. Folleto Técnico N0. 87 28 p.

3.

Tamarit-Urias et al. (2016). Modelos de ahusamiento para especies de coniferas en Puebla. INIFAP. Folleto  Técnico N0. 85 29 p.

2.

Martínez-Salvador y Quiñonez-Barraza (2015). Diagramas de manejo de la densidad  con modelación de regresión frontera estocástica para mezcla de especies de la UMAFOR 0807 Guachochi, Chihuahua. Gobierno de Chihuahua. Folleto Técnico 52 p.

1.

Quiñonez-Barraza et al. (2014). Diagramas de manejo de la densidad con modelación de regresión frontera estocástica para mezcla de especies de la UMAFOR 1005 “Santiago Papasquiaro y Anexos” en Durango INIFAP. Folleto Técnico N0. 77 32 p.

Technical books

1.

Ramírez-Martínez et al. (2016). Sistema compatible segmentado de ahusamiento-volumen comercial para  Pinus ayacahuite Ehren. Capítulo In Innovando el Agro Veracruzano 649-670

Chapters of Books

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