Altitudinal genetic variation in Pinus hartwegii Lindl. I: Height growth, shoot phenology, and frost damage in seedlings

Viveros-Viveros, Héctor; Sáenz‐Romero, Cuauhtémoc; Hernández, J. Jesús Vargas; López-Upton, Javier; Ramírez-Valverde, Gustavo; Santacruz-Várela, Amalio

doi:10.1016/j.foreco.2008.10.021

Cited by 53 publications

(50 citation statements)

References 32 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Gómez-Mendoza and Arriaga (2007) found that P. oocarpa is one of the species most vulnerable transferir especies de menor altitud (3,000-3,500 m) a estas cotas altitudinales (Viveros-Viveros et al, 2009 to climate change in the Mexican republic. According to these authors, the ideal area for P. oocarpa will decrease by 50 %; P. teocote is a species moderately sensitive to climate change, given that its surface area will decrease by 19 %; whereas P. douglasiana is a tolerant species, given that its distribution surface area will only decrease by 1 %.…”

Section: Resultados Y Discusiónmentioning

confidence: 98%

“…Due to the increase in temperature and the decrease in precipitation because of climate change, the distribution area of various Pinus species could decrease in areas with altitudes above 3,500 m and it will be necessary to transfer lower altitude species (3,000-3,500 m) to these altitudinal heights (Viveros-Viveros et al, 2009). Gómez-Mendoza and Arriaga (2007) found that P. oocarpa is one of the species most vulnerable transferir especies de menor altitud (3,000-3,500 m) a estas cotas altitudinales (Viveros-Viveros et al, 2009 to climate change in the Mexican republic.…”

Section: Resultados Y Discusiónmentioning

confidence: 99%

“…Algunos estudios recomiendan que las especies sensibles al cambio climático deben examinarse estrechamente, para definir estrategias de conservación ex situ (Sáenz-Romero, Rehfeldt, Duval, & Lindig-Cisneros, 2012;Viveros-Viveros et al, 2009). Una alternativa de estudio para evaluar el impacto del cambio climático sobre el espacio geográfico de las especies es a través de modelos de distribución de especies o modelos de nicho ecológico (Jeschke & Strayer, 2008;Peterson, 2006).…”

Section: Introductionunclassified

See 2 more Smart Citations

Potential distribution model of Pinaceae species under climate change scenarios in Michoacán

Cruz-Cárdenas¹,

López–Mata²,

Silva³

et al. 2016

rchscfa

View full text Add to dashboard Cite

Section: Resultados Y Discusiónmentioning

confidence: 98%

Section: Resultados Y Discusiónmentioning

confidence: 99%

Section: Introductionunclassified

See 1 more Smart Citation

Potential distribution model of Pinaceae species under climate change scenarios in Michoacán

Cruz-Cárdenas¹,

López–Mata²,

Silva³

et al. 2016

rchscfa

View full text Add to dashboard Cite

“…In that case, the assisted migration upwards would be between 175 and 225 m of altitudinal difference, at least for the populations of the lowest altitudinal interval of the natural distribution, because the relationship between altitude and annual aridity index is more complex and requires of further analysis. This realignment would be needed if genetic differences of the quantitative traits among populations of A. cupreata prove to be associated to an altitudinal gradient, as it is the case for other woody forest species in the mountains of Mexico (Sáenz-Romero, Guzmán-Reyna, & Rehfeldt, 2006;Sáenz-Romero & Tapia-OliSáenz-Romero & Tapia-Oli-& Tapia-Olivares, 2008;Viveros-Viveros et al, 2009). However, to know if such association exists in this particular case, tests would need to be established.…”

Section: Decoupling Between Genotypes and Suitable Habitatmentioning

confidence: 99%

ESTIMACIÓN DE LA DISOCIACIÓN DE Agave cupreata A SU HÁBITAT IDÓNEO DEBIDO AL CAMBIO CLIMÁTICO

Sáenz‐Romero

Martínez-Palacios

Gómez-Sierra

et al. 2012

rchscfa

Self Cite

View full text Add to dashboard Cite

PALABRAS CLAVE: Agavaceae, calentamiento global, colonización asistida, desfasamiento entre genotipos y ambiente, migración asistida. KEYWORDS:Agavaceae, global warming, assisted colonization, decoupling between genotype and environment, global warming. INTRODUCCIÓNAgave cupreata, una planta de la familia Agavaceae, es endémica del suroccidente de México, en los estados de Guerrero y Michoacán. La especie se distribuye en las laderas de la Depresión del Balsas entre 1,220 y 1,850 m, en la transición entre el bosque tropical RESUMENLos individuos maduros de Agave cupreata son cosechados para producir mezcal, una bebida alcohólica artesanal. El objetivo de este trabajo fue estimar el desfasamiento potencial del hábitat apropiado, debido al cambio climático, entre las poblaciones y el clima al cual están adaptados. Para ello, se estimó el clima contemporáneo (promedio 1961-1990) y futuro (año 2030) de 12 localidades donde se distribuyen las poblaciones naturales. Las estimaciones se hicieron utilizando un modelo climático "spline", basado en resultados del modelo de circulación global canadiense, escenario de emisiones intermedio A1B. La estimación de la temperatura promedio de las 12 procedencias para el clima contemporáneo fue 19.1 °C y la estimación de la precipitación fue 961 mm. La predicción para el año 2030 fue 20.5 °C y 833 mm, con un incremento de temperatura de 1.4 °C y un decremento de precipitación de 13.3 %. Los resultados indican que el clima propicio para A. cupreata ocurrirá entre 175 y 225 m de altitud mayor que las localidades en donde actualmente se encuentran las poblaciones. Por tanto, se sugiere establecer plantaciones de conservación ex situ y comerciales bajo las condiciones mencionadas, como una medida de manejo de migración asistida para adaptarse al cambio climático predicho. ABSTRACTMature individuals of Agave cupreata are harvested to produce an artisan distilled alcoholic beverage (mescal). The objective of this study was to estimate the potential decoupling of suitable habitat due to climatic change, between the populations and the climate for which they are adapted. Therefore, the contemporary (average and future (decade centered in the year 2030) climate for 12 localities was estimated, where natural populations are distributed, using a spline climate model, based on outputs from the Canadian General Circulation Model and intermediate emission scenario A1B. Average temperature estimates of the 12 provenances for contemporary climate was 19.1 °C and precipitation estimates was 961 mm. Predicted for year 2030 was 20.5 °C and 833 mm, with a temperature increment of 1.4 °C and a precipitation decrease of 13.3 %. Results indicate that suitable climate for A. cupreata will occur at 175 to 225 m of higher elevations than the locations were populations are presently. Therefore, It is suggested to establish ex situ conservation and commercial plantations under the conditions mentioned above, as assisted migration management measure for adaptation to the predicted climatic change.

show abstract

“…This could also apply to Turkish red pine in this study. Also, some morphological traits of various plant species (especially those of forest trees) showed genetic differentiation along altitudinal gradients as a result of various factors (Ohsawa and Ide, 2008;Saenz-Romero et al, 2006;Vitasse et al, 2009;Viveros-Viveros et al, 2009). All the differentiation along altitudinal gradients can be explained by gene flow (phenological) isolation and selective pressure, eventually resulting in environmental (temperature, precipitation and others) clines (Ohsawa and Ide, 2008;Vitasse et al, 2009).…”

Section: Comparison Of the Populationsmentioning

confidence: 99%

Genetic Comparison of Pinus brutia Ten. Populations from Different Elevations by RAPD Markers

Kurt

Bilgen

Kaya

et al. 2011

Not Bot Hort Agrobot Cluj

View full text Add to dashboard Cite

Turkish Red Pine (Pinus brutia Ten.) is an important forest tree species in Turkey for various economic and ecological reasons. In this study, nine RAPD (Randomly Amplified Polymorphic DNA) primers were used to determine genetic variation within and among populations of P. brutia located at the Duzlercami common-garden test site. This site was established in 1979 and includes six natural populations of P. brutia from two altitudinal transects extending from the coast to higher elevations in the Antalya region of Turkey. A total of 32 polymorphic RAPD loci were found in the analyzed six populations. The mean proportion of polymorphic loci among population samples equals 100%, mean number of alleles for each locus = 2.0, effective allele number = 1.71, Shannon's information index = 0.58, and mean Nei (1973)'s gene diversity value = 0.4. According to G ST results, a high proportion of genetic diversity (95-99%) is found within populations. A relatively high genetic differentiation was found among altitudinal population pairs in both transect. Also, data on quantitative traits (total height and/or diameter) at different ages (13, 17, 30 years) were compared with molecular data. There are similarities between the results obtained from RAPD markers and those obtained from the quantitative traits. The differentiation in quantitative traits appears to be due to local adaptation of populations. Data suggest that priority should be given to the selection of material based on geographic origin along the altitudinal gradients of P. brutia populations to conserve the genetic resource of species.

show abstract

Altitudinal genetic variation in Pinus hartwegii Lindl. I: Height growth, shoot phenology, and frost damage in seedlings

Cited by 53 publications

References 32 publications

Potential distribution model of Pinaceae species under climate change scenarios in Michoacán

Potential distribution model of Pinaceae species under climate change scenarios in Michoacán

ESTIMACIÓN DE LA DISOCIACIÓN DE Agave cupreata A SU HÁBITAT IDÓNEO DEBIDO AL CAMBIO CLIMÁTICO

Genetic Comparison of Pinus brutia Ten. Populations from Different Elevations by RAPD Markers

Contact Info

Product

Resources

About