Detecting potential regional effects of increased atmospheric CO<sub>2</sub> on growth rates of western juniper

Knapp, Paul A.; Soulé, Peter T.; Grissino-Mayer, Henri D.

doi:10.1046/j.1365-2486.2001.00452.x

Cited by 85 publications

(112 citation statements)

References 42 publications

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“…Jacoby and D'Arrigo, 1997;Kienast and Luxmoore, 1988;Körner et al, 2005). Furthermore, an improvement of WUE caused by increasing CO 2 concentration has already been suggested in black pine in the Austrian Alps (Leal et al, 2008) and for other species in the Mediterranean (Martínez-Vilalta et al, 2008;Rathgeber et al, 2000) and North America (Knapp et al, 2001). Rathgeber et al (2000) suggested that a combination of warming winters and double CO 2 concentrations enhanced net primary productivity of P. halepensis stands, in accordance with our results of positive trenders.…”

Section: Radial Growth Trends and Their Climatic Driverssupporting

confidence: 89%

“…The fact that the ratio of positive trenders were inversely correlated with site productivity and latitude (Fig. 5) agrees with previous studies suggesting that the effect of rising CO 2 concentration would be higher in arid sites (Idso and Idso, 1994;Knapp et al, 2001;Soulé and Knapp, 2006) because the increase in WUE would reduce the drought stress of plants (Morison, 1993), although studies in trees are not conclusive (e.g. Jacoby and D'Arrigo, 1997;Kienast and Luxmoore, 1988;Körner et al, 2005).…”

Section: Radial Growth Trends and Their Climatic Driverssupporting

confidence: 88%

“…In Mediterranean forests, global warming further increases the already high water stress which would reduce tree growth (Macias et al, 2006;Piovesan et al, 2008;Sarris et al, 2007). However, some studies have suggested the rising CO 2 concentration as an explanation of a possible growth increase of trees in dry temperate climates (Knapp et al, 2001;Martínez-Vilalta et al, 2008). CO 2 -induced increase of water-use efficiency (WUE) would be more evident at sites with greater stress and more severely limiting resources (e.g.…”

Section: Introductionmentioning

confidence: 99%

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Black pine (Pinus nigra Arn.) growth divergence along a latitudinal gradient in Western Mediterranean mountains

Martín-Benito¹,

Rı́o²,

Cañellas³

2010

Ann. For. Sci.

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Abstract• Most studies of tree-growth and climate report positive responses to global warming in high latitudes and negative responses at lower ones.• We analyzed tree-ring width of Pinus nigra Arn. along a 500 km latitudinal transect in the Iberian Peninsula to study the temporal trend and climate forcing in tree radial growth during the last century.• Tree growth was enhanced by cool summers and moist cold seasons. Increased moisture stress has decreased tree growth rates. However, we present evidence of growth increases in some trees in all sampled populations after 1980's. Climate change negatively (positively) affected between 72% (5%) of trees in the southern populations and 40% (25%) in the north Trees with positive growth trends were favored by winter temperatures and their abundance was inversely correlated with forest productivity.• Our findings add evidences of tree growth divergence in the Mediterranean basin and show the gradual transition between forests where positive (temperate and boreal) and negative (Mediterranean) growth trends dominate. Mots-clés :tendances de croissance / changement climatique / dendroécologie / Pinus nigra / stress hydrique Résumé -Écarts de croissance chez le pin noir (Pinus nigra Arn.) le long d'un gradient latitudinal dans les montagnes de l'Ouest méditerranéen.• La plupart des études sur la croissance de l'arbre en relation avec le climat rapportent des réponses positives au réchauffement climatique dans les hautes latitudes et des réponses négatives dans les basses latitudes.• Pour étudier l'évolution temporelle et le forçage climatique dans la croissance radiale des arbres au cours du siècle dernier, nous avons analysé la largeur des cernes chez Pinus nigra Arn. le long d'un transect latitudinal de 500 km dans la Péninsule Ibérique.• La croissance des arbres a été augmentée par des étés frais et des saisons froides humides. L'augmentation du stress hydrique a diminué les taux de croissance des arbres. Cependant, nous présentons la preuve de l'augmentation de la croissance de certains arbres dans toutes les populations échan-tillonnées après 1980. Le changement climatique a négativement (positivement) affecté entre 72 % (5 %) des arbres dans les populations du Sud et 40 % (25 %) dans les arbres du Nord avec des tendances de croissance positives qui ont été favorisées par les températures hivernales et leur abondance étaient inversement corrélée à la productivité forestière.• Nos résultats ajoutent des preuves de la divergence de croissance des arbres dans le bassin mé-diterranéen et montrent la transition progressive entre les forêts où les tendances positives (zones tempérées et boréales) et négatives (zone méditerranéenne) de croissance dominent.

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Section: Radial Growth Trends and Their Climatic Driverssupporting

confidence: 89%

Section: Radial Growth Trends and Their Climatic Driverssupporting

confidence: 88%

Section: Introductionmentioning

confidence: 99%

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Black pine (Pinus nigra Arn.) growth divergence along a latitudinal gradient in Western Mediterranean mountains

Martín-Benito¹,

Rı́o²,

Cañellas³

2010

Ann. For. Sci.

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“…The effect of increasing temperature upon plants, in the absence of an increase in precipitation, increases ETP rates and water stress, which together with increasing CO 2 concentrations (Raupach et al, 2007) are likely to affect tree sensitivity and growth. Different authors report different responses to increasing CO 2 concentrations, although in general relative radial growth increases in dry environments due to higher water-use efficiency (WUE) are expected (Hattenschwiler et al, 1997;Knapp et al, 2001;Soulé and Knapp, 2006;Tognetti et al, 2000). However, if ETP increases in Mediterranean ecosystems, water stress could dominate over the CO 2 -induced WUE increase (if any), resulting in important changes in latitudinal and altitudinal shift of species distribution (Benito Garzón et al, 2008).…”

Section: Population Response To Climatementioning

confidence: 99%

Variabilité des relations climatcroissance chez Quercus ilex L. dans des peuplements forestiers ouverts de différentes densités dans l’ouest de la péninsule Ibérique

Gea‐Izquierdo¹,

Martín-Benito²,

Cherubini

et al. 2009

Ann. For. Sci.

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Abstract• We present the longest tree-ring chronology (141 y) of Quercus ilex L. (holm oak), and discuss the species climate-growth relationships and the influence of stand density on tree sensitivity to climate.• Similarly to Quercus suber L., the most influential climatic variables upon holm oak growth were late spring and early summer precipitation, which enhanced growth, and high temperatures in the previous August and current July, which negatively affected growth.• High density stands responded to similar climatic factors as low density stands, but their response was generally weaker. Holm oak sensitivity to climate has increased in recent decades, which might be related to increasing temperatures in the region. Sensitivity was higher in low density stands. Additionally, the effect of summer stress on growth seems to have increased during the same period, similarly to other species in the Iberian Peninsula, suggesting that trees are more vulnerable to climatic changes.• Stand density could buffer the response to climate by smoothing climatic extremes. Nevertheless, the effect of competition might reverse this positive effect at the individual tree level. Precautions should be taken before providing management guidelines regarding the effect of climate change and stand density on holm oak. Mots-clés :chêne vert / dendroécologie / changement climatique / réchauffement / dehesas / cernes des arbres Résumé -Variabilité des relations climat-croissance chez Quercus ilex L. dans des peuplements forestiers ouverts de différentes densités dans l'ouest de la péninsule Ibérique.• Nous présentons la plus longue chronologie de cernes (141 ans) de Quercus ilex L. (chêne vert) comme et nous discutons les relations climat-croissance chez cette espèce et l'influence de la densité du peuplement sur la sensibilité des arbres au climat.• De façon similaire à Quercus suber L., les variables climatiques les plus influentes sur la croissance du chêne vert ont été les précipitations de la fin du printemps et du début de l'été, qui ont augmenté la croissance, et les températures élevées d'août de l'année précédente et du mois de juillet de l'année, qui ont affecté négativement la croissance.• Les peuplements de densité élevé ont répondu à des facteurs climatiques similaires que les peuplements de faible densité mais leur réponse a été généralement plus faible. La sensibilité du chêne vert au climat a augmentée au cours des dernières décennies, elle pourrait être liée à l'augmentation des températures dans la région. Cette sensibilité est plus élevée dans les peuplements de faible densité. En outre, le effet du stress estival sur la croissance semble avoir augmenté au cours de la même pé-riode, de la même façon que pour d'autres espèces dans la péninsule Ibérique, ce qui suggère que les arbres sont plus vulnérables aux changements climatiques.• La densité du peuplement pourrait amortir la réponse au climat en lissant les extrêmes climatiques. Néanmoins, les effets de la concurrence pourraient inverser cet effet positif au niveau de...

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“…In old age these trees can assume a "strip-bark" form, characterized by a band of trunk that remains alive and continues to grow after the rest of the stem has died. Such trees are sensitive to higher atmospheric CO 2 concentrations (Graybill and Idso 1993), possibly because of greater water-use efficiency (Knapp et al 2001, Bunn et al 2003 or different carbon partitioning among tree parts (Tang et al 1999). Support for a direct CO 2 influence on tree ring records extracted from "full-bark" trees is less conclusive.…”

Section: Temperature Reconstructionsmentioning

confidence: 99%

Surface Temperature Reconstructions for the Last 2,000 Years

North¹

2006

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Our understanding of climate and how it has varied over time is advancing rapidly as new data are acquired and new investigative instruments and methods are employed. Thus in 2005, I suggested to the U.S. Congress that the National Research Council (NRC) could help answer questions about the data and methods that have been used in constructing records of Earth's surface temperatures from times when there were no scientific instruments, using proxy indicators. How has temperature varied over the last 2,000 years? How certain is the answer to this question? Subsequently, this study was requested by Representative Sherwood Boehlert, chairman of the Committee on Science, U.S. House of Representatives. Chairman Boehlert asked for a clear and concise report in a relatively short period of time, and the NRC agreed to undertake the study quickly. An ad hoc committee was formed, with the group carefully composed to include the breadth and depth of expertise and perspectives needed to analyze all aspects of how surface temperatures are estimated and interpreted and to comment generally on climate science. The NRC asked the committee to summarize current scientific information on the temperature record for the past two millennia, describe the main areas of uncertainty and how significant they are, describe the principal methodologies used and any problems with these approaches, and explain how central is the debate over the paleoclimate temperature record to the state of scientific knowledge on global climate change.The committee has prepared a report that, in my view, provides policy makers and the scientific community with a critical view of surface temperature reconstructions and how they are evolving over time, as well as a good sense of how important our understanding of the paleoclimate temperature record is within the overall state of scientific knowledge on global climate change. The report does not make policy recommendations.I thank the members of the committee, who worked intensely to produce this careful report in a short period of time and contributed much personal time, insight, and energy. ForewordCopyright © National Academy of Sciences. All rights reserved.Surface Temperature Reconstructions for the Last 2,000 Years http://www.nap.edu/catalog/11676.htmlThe NRC staff and all those who contributed papers, data, graphics, and other information, as well as the independent experts who participated in the rigorous review process, were essential participants. Surface Temperature Reconstructions for the Last 2,000 Years http://www.nap.edu/catalog/11676.html ix This committee was asked to describe and assess the state of scientific efforts to reconstruct surface temperature records for the Earth over approximately the last 2,000 years. (The full Statement of Task appears in Appendix A.) Normally, a technical issue such as surface temperature reconstructions might not generate widespread attention, but this case brings interesting lessons about how science works and how science, especially climate science, is commun...

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Detecting potential regional effects of increased atmospheric CO₂ on growth rates of western juniper

Cited by 85 publications

References 42 publications

Black pine (Pinus nigra Arn.) growth divergence along a latitudinal gradient in Western Mediterranean mountains

Black pine (Pinus nigra Arn.) growth divergence along a latitudinal gradient in Western Mediterranean mountains

Variabilité des relations climatcroissance chez Quercus ilex L. dans des peuplements forestiers ouverts de différentes densités dans l’ouest de la péninsule Ibérique

Surface Temperature Reconstructions for the Last 2,000 Years

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Detecting potential regional effects of increased atmospheric CO2 on growth rates of western juniper

Cited by 85 publications

References 42 publications

Black pine (Pinus nigra Arn.) growth divergence along a latitudinal gradient in Western Mediterranean mountains

Black pine (Pinus nigra Arn.) growth divergence along a latitudinal gradient in Western Mediterranean mountains

Variabilité des relations climatcroissance chez Quercus ilex L. dans des peuplements forestiers ouverts de différentes densités dans l’ouest de la péninsule Ibérique

Surface Temperature Reconstructions for the Last 2,000 Years

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Detecting potential regional effects of increased atmospheric CO₂ on growth rates of western juniper