The carbon charging of pines at the climatic treeline: a global comparison

Hoch, Günter; Körner, Christian

doi:10.1007/s00442-002-1154-7

Cited by 284 publications

(271 citation statements)

References 45 publications

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“…This might be due to the stronger synthesis of fat for their stronger frost resistances in the higher altitudes. Similar findings were also observed for pine needles, tree bark and xylem tissues (Hoch and Korner, 2003;Yang et al, 2013). To avoid the influence of altitudes on the concentration and lipid (or TOC) content, partial correlation analysis was carried out and indicated that there was no significant correlation between the soil TOC and the concentrations of each targeted compound, which was different from the observation of Yang's work where most of OCPs were significantly linearly correlated with the soil TOC (Yang et al, 2013).…”

Section: Concentrations and Profiles Of Svocs In Lichen Moss And Soisupporting

confidence: 55%

“…Lichen is a complex life form that lives symbiotically with fungi and algae; thus, the decreasing temperature with increasing altitude might be related to the altitude-dependent gradient trend of SVOCs in lichens. Additionally, the host trees at the higher altitudes might ooze more hydrophobic oils to resist frost than those at lower altitudes, which may increase the lipid contents of lichens, further improving the uptake capacity of SVOCs for lichens in the higher altitude regions (Hoch and Korner, 2003;Yang et al, 2013). Conversely, a range of other studies also noted similar altitude-dependent gradient trend/cold-trapping effects for HCHs (Blais et al, 1998;Blais et al, 2003;Davidson et al, 2003;Shen et al, 2004), DDTs Davidson et al, 2003;Shen et al, 2005), endosulfan II and PCBs (Blais et al, 1998) in the Canadian Rocky Mountains and the Alps.…”

Section: Key Factors Governing the Distributions Of Svocs On The Soutmentioning

confidence: 91%

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Lichen, moss and soil in resolving the occurrence of semi-volatile organic compounds on the southeastern Tibetan Plateau, China

Zhu

Schramm

Wang

et al. 2015

Science of The Total Environment

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• DDTs, endosulfans, HCHs and hexachlorobenzene predominated in all the samples.• High detection frequency of HBCDs was only observed in lichen samples.• Lichen concentrations of OCPs and PCBs increased with elevation in Tibetan Plateau.• Lichen is more suitable to reveal airborne SVOC contamination than moss.• SVOCs with log K OA (8-11) and log K WA (2-4) had high mountain contamination potential. a b s t r a c t a r t i c l e i n f o This study investigated a wide range of semi-volatile organic compounds (SVOCs), including 28 persistent organochlorine pesticides (OCPs), 18 polychlorinated biphenyls (PCBs), 13 polybrominated diphenyl ethers (PBDEs), and 3 hexabromocyclododecane (HBCD) congeners in lichen, moss and soil collected from the southeastern Tibetan Plateau, China. This allows research provides insight into elevation gradient distributions and possible cold trapping effects of SVOCs in this high mountain area, and compares lichens and mosses as air passive samplers for indicating SVOC occurrences. DDTs, endosulfans, HCHs and hexachlorobenzene predominated in all of the samples. Source analysis indicted that there were fresh inputs of DDTs and HCHs in the sampling region. Lichens and mosses shared commonalities in revealing the profiles and levels of SVOCs based on their lipidcontent-normalized concentrations. The concentrations of 12 OCPs and 14 PCBs in lichens were significantly linearly correlated with altitudes, whereas the correlations for mosses and soil with altitudes were insignificant. Both a frequency distribution diagram and the Mountain Contamination Potential Model indicated that SVOCs with specific values of log K OA (8-11) and log K WA (2-4) had relative high mountain contamination potential on the Tibetan Plateau.

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Section: Concentrations and Profiles Of Svocs In Lichen Moss And Soisupporting

confidence: 55%

Section: Key Factors Governing the Distributions Of Svocs On The Soutmentioning

confidence: 91%

Lichen, moss and soil in resolving the occurrence of semi-volatile organic compounds on the southeastern Tibetan Plateau, China

Zhu

Schramm

Wang

et al. 2015

Science of The Total Environment

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“…On the other hand, nonstructural carbon reserves (e.g. Sveinbjörnsson et al 1992, Skre 1993, Grace et al 2002, Hoch & Körner 2003, Shi et al 2006) may compensate for the effects of low soil temperature during the early growing season. In dry climates and during dry summers, moisture supply from melting snow drifts may mitigate moisture stress in late spring and early summer.…”

Section: Influence Of Tree Groups On Wind and Resultant Effectsmentioning

confidence: 99%

Feedback effects of clonal groups and tree clusters on site conditions at the treeline: implications for treeline dynamics

Holtmeier¹,

Broll²

2017

Clim. Res.

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The article examines interactions between closely spaced clonal tree groups (spruce, fir, mountain birch) and dense tree clusters and their environment with special regard to Northern Europe, the Alps, and the Rocky Mountains. Modification of wind velocity and direction, trapping blowing snow and eolian dust, ground-shading and the release of sensible heat to the immediate vicinity ('black-body effect') are the main direct feedback effects of grouped trees on site conditions. Under long-lived clonal groups, soil physical and chemical properties gradually change. Clonal groups also leave their marks in geomorphic micro-structures. Compact groups may facilitate establishment of tree seedlings by providing shelter. Under global warming, the existing clonal groups above the forest limit may act as 'new' sources of viable seed that facilitate infilling of gaps in the treeline ecotone and the establishment of new tree populations above the present tree limit. On the other hand, increased deposition of snow as a result of the presence of tree groups may affect seedling establishment, and thereby overrule the positive effects of climate warming. If climate warming continues, current spatial structures, surface roughness, albedo, and snow distribution pattern, along with the resulting effects of these factors, will change across the entire ecotone. The feedback effects of closely spaced clonal groups will spatially overlap. Thus, it will be hard to distinguish between the effects of the single groups when new trees become established within the existing gaps. The northward shift of the polar treeline ecotone might contribute to heating of the lower atmosphere. On steep high-mountain slopes, however, no similar effects can be expected because of the limited size of the lower alpine area that has the potential to become covered with new forest and tree stands.

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“…build new structures (< 5 °C; Körner 2003). As a consequence of limits to tissue growth, plants accumulate non-structural carbohydrates and even lipids (Hoch and Körner 2003). For leaf starch formation this observation dates back to the mid-nineteenth century (Krause 1869).…”

Section: Introductionmentioning

confidence: 99%

Winter crop growth at low temperature may hold the answer for alpine treeline formation

Körner¹

2008

Plant Ecology & Diversity

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Background: Undisturbed high elevation treelines follow a common growing season isotherm, irrespective of latitude. Small stature plants thrive at much higher elevations because they grow in a favourable microclimate near the ground, whereas trees are aerodynamically coupled to free atmospheric circulation, hence the uniform treeline elevation in a given region. Aims: I argue that the treeline results from tree architecture and not from a tree-specific inferior physiology. At tissue level, all cold adapted higher plants (including winter crops) face similar temperature related limitations and are constrained by similar thermal thresholds. Methods: In order to explore this hypothesis, winter rape and winter oat were grown in the field and the daily rate of leaf expansion was measured during early winter, with temperatures similar to those at treeline at the beginning of the growing season (monthly mean temperature of 5 °C). Results: Leaves of these winter crops only grew when the degree hours above 5 °C for a given day exceeded zero. Rape and oats showed very similar responses. The data support a common temperature threshold for tissue formation in winter crops and treeline trees. Conclusions: A literature survey revealed lower temperature thresholds (close to freezing point) in arctic and Antarctic algae. It appears that the formation of complex, partly lignified tissue does not happen below 5 °C, whereas such temperatures exert little constraints on photosynthesis. The study illustrates that tissue growth in winter crops can help understand growth of treeline trees, given that both exhibit similar minimum temperature requirements for meristem functioning.

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The carbon charging of pines at the climatic treeline: a global comparison

Cited by 284 publications

References 45 publications

Lichen, moss and soil in resolving the occurrence of semi-volatile organic compounds on the southeastern Tibetan Plateau, China

Lichen, moss and soil in resolving the occurrence of semi-volatile organic compounds on the southeastern Tibetan Plateau, China

Feedback effects of clonal groups and tree clusters on site conditions at the treeline: implications for treeline dynamics

Winter crop growth at low temperature may hold the answer for alpine treeline formation

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