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Heterosis in hybrid larch (Larix decidua x leptolepis) (1987)

Matyssek, R. ; Schulze, E. -D.

Springer

Trees 1 (1987), S. 219-224

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ISSN: 1432-2285

Keywords: Larix ; Heterosis ; Photosynthesis ; Stomatal conductance

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Summary Individual 33-year-old forest trees of the deciduous conifer speciesLarix decidua, Larix leptolepis andLarix decidua x leptolepis were investigated with respect to the phenomenon of stem heterosis in hybrid larch; the first part of this study compares the gas exchange responses of leaves. CO2 assimilation per leaf area was similar in the three larch species, but on a dry weight basis the nitrogen content of the needles and maximum CO2 assimilation rate (Amax) were slightly higher in the hybrid. This increase was accompanied by a higher protein content than in the Japanese and a lower specific leaf weight than in the European larch. All three species were similar in terms of the photosynthetic “nitrogen use” and stomatal conductance atA max. The similar slopes of the area-related steady-state responses of gas exchange against irradiance, evaporative demand and internal CO2 concentration led to similar rates of CO2 uptake under ambient conditions. The natural combinations and variability of the environmental factors also reduced the small dry weight-related difference inA max between hybrid larch and the parent species, such that all trees achieved similar daily carbon gains. Thus, the ecological significance of small interspecific differences in the metabolism of leaves has very little effect under the natural habitat conditions of a temperate climate. The second part of the study will investigate the effect of growth characteristics on the heterosis of hybrid larch.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01816819

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2

Electronic Resource

Heterosis in hybrid larch (Larix decidua x leptolepis) (1987)

Matyssek, R. ; Schulze, E. -D.

Springer

Trees 1 (1987), S. 225-231

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ISSN: 1432-2285

Keywords: Larix ; Heterosis ; Growth ; Branching pattern ; Needle density

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Summary Among 33-year-old forest trees ofLarix decidua, L. leptolepis andL. decidua x leptolepis, the hybrid possessed an above-ground biomass which was three times greater, although all larches displayed similar relative distributions of biomass. At a “relative growth rate” slightly lower than in the parent species, hybrid larch achieved twice the annual carbon gain, increment in stem length and above-ground production, and its foliage-related stem growth was higher than in European (L. decidua) but similar to Japanese (L. leptolepis) larch. A similar “relative growth efficiency” and foliage-related total above-ground production in all trees did reflect the similarity of photosynthetic capacity of the hybrid found at the leaf level. While the lengths of lateral twigs on hybrid branches were intermediate between the European larch with short, and the Japanese larch with large, twigs the hybrid possessed the longest branches with the highest needle biomass. This resulted in a crown structure of the hybrid crown similar to the Japanese larch together with a high needle density on branches as in the European larch. In total, the foliage biomass per crown length was about 30% higher in hybrid larch than in both of the parent species. Thus, the high carbon input for the stem heterosis was based on a “complementation principle” of advantageous parent features at the crown level. Similar slopes of foliage against sapwood area of stem and branches did not indicate a special need for a thick hybrid stem with respect to water transport.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01816820

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3

Electronic Resource

Estimating photosynthetic rate and annual carbon gain in conifers from specific leaf weight and leaf biomass (1986)

Oren, R. ; Schulze, E. -D. ; Matyssek, R. ; [et al.]

Springer

Oecologia 70 (1986), S. 187-193

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ISSN: 1432-1939

Keywords: Photosynthesis ; Specific leaf weight ; Carbon balance ; Larix ; Picea

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Canopy photosynthesis is difficult to measure directly or to predict with complex models demanding knowledge of seasonal variation in environmental and physiological properties of the canopy. Trees in particular offer a challenge with their large, aerodynamically rough and seasonally-changing canopy properties. In this paper we assess the possibility of using specific leaf weight to predict seasonal and annual net photosynthetic rate in deciduous (Larix sp.) and evergreen (Picea abies) conifers. Annual photosynthetic rate and specific leaf weight of different positions of the crown in both species were highly correlated (r 2=0.930). Annual carbon uptake by different segments in a mature P. abies crown was closely related to leaf biomass. The relationship was improved by adjusting the leaf biomass of each segment in regard to its specific leaf weight relative to the maximum found in the canopy. The adjustment accounted for associated differences in photosynthetic activity. This combined structural index (leaf biomassxrelative specific leaf weight) could, when calibrated, predict the total annual carbon uptake by different parts of the crown. If direct measurements of photosynthesis are not available, the combined structural index may still serve as a comparative estimator of annual carbon uptake.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00379238

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4

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Diurnal variations of light-saturated CO2 assimilation and intercellular carbon dioxide concentration are not related to leaf water potential (1986)

Küppers, M. ; Matyssek, R. ; Schulze, E. -D.

Springer

Oecologia 69 (1986), S. 477-480

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ISSN: 1432-1939

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00377072

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5

Electronic Resource

Carbon uptake and respiration in above-ground parts of a Larix decidua × leptolepis tree (1988)

Matyssek, R. ; Schulze, E. D.

Springer

Trees 2 (1988), S. 233-241

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ISSN: 1432-2285

Keywords: Larix ; Carbon uptake ; Respiration ; Carbon balances ; Water loss ; Sun and shade branches

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Summary Shade needles of hybrid larch (Larix decidua × leptolepis) had the same rates of photosynthesis as sun needles per dry weight and nitrogen, and a similar leaf conductance under conditions of light saturation at ambient CO2 (Amax). However, on an area basis, Amax and specific leaf weight were lower in shade than in sun needles. Stomata of sun needles limited CO2 uptake at light saturation by about 20%, but under natural conditions of light in the shade crown, shade needles operated in a range of saturating internal CO2 without stomatal limitation of CO2 uptake. In both needle types, stomata responded similarly to changes in light, but shade needles were more sensitive to changes in vapor pressure deficit than sun needles. Despite a high photosynthetic capacity, the ambient light conditions reduced the mean daily (in summer) and annual carbon gain of shade needles to less than 50% of that in sun needles. In sun needles, the transpiration per carbon gain was about 220 mol mol−1 on an annual basis. The carbon budget of branches was determined from the photosynthetic rate, the needle biomass and respiration, the latter of which was (per growth and on a carbon basis) 1.6 mol mol−1 year−1 in branch and stem wood. In shade branches carbon gains exceeded carbon costs (growth + respiration) by only a factor of 1.6 compared with 3.5 in sun branches. The carbon balance of sun branches was 5 times higher per needle biomass of a branch or 9 times higher on a branch length basis than shade branches. The shade foliage (including the shaded near-stem sun foliage) only contributed approximately 23% to the total annual carbon gain of the tree.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00202378

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Fate of recently fixed carbon in European beech (Fagus sylvatica) saplings during drought and subsequent recovery (2014)

Zang, U., Goisser, M., Grams, T. E. E., Haberle, K.-H., Matyssek, R., Matzner, E., Borken, W.

Oxford University Press

In: Tree Physiology

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Publication Date: 2014-01-25

Description: Drought reduces the carbon (C) assimilation of trees and decouples aboveground from belowground carbon fluxes, but little is known about the response of drought-stressed trees to rewetting. This study aims to assess dynamics and patterns of C allocation in beech saplings under dry and rewetted soil conditions. In October 2010, 5-year-old beech saplings from a forest site were transplanted into 20 l pots. In 2011, the saplings were subjected to different levels of soil drought ranging from non-limiting water supply (control) to severe water limitation with soil water potentials of less than –1.5 MPa. As a physiologically relevant measure of drought, the cumulated soil water potential (i.e., drought stress dose (DSD)) was calculated for the growing season. In late August, the saplings were transferred into a climate chamber and pulse-labeled with 13 C-depleted CO 2 ( 13 C of –47). Isotopic signatures in leaf and soil respiration were repeatedly measured. Five days after soil rewetting, a second label was applied using 99 atom% 13 CO 2 . After another 12 days, the fate of assimilated C in each sapling was assessed by calculating the 13 C mass balance. Photosynthesis decreased by 60% in saplings under severe drought. The mean residence time (MRT) of recent assimilates in leaf respiration was more than three times longer than under non-limited conditions and was positively correlated to DSD. Also, the appearance of the label in soil respiration was delayed. Within 5 days after rewetting, photosynthesis, MRT of recent assimilates in leaf respiration and appearance of the label in soil respiration recovered fully. Despite the fast recovery, less label was recovered in the biomass of the previously drought-stressed plants, which also allocated less C to the root compartment (45 vs 64% in the control). We conclude that beech saplings quickly recover from extreme soil drought, although transitional after-effects prevail in C allocation, possibly due to repair-driven respiratory processes.

Print ISSN: 0829-318X

Electronic ISSN: 1758-4469

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Published by Oxford University Press

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Ground-level ozone differentially affects nitrogen acquisition and allocation in mature European beech (Fagus sylvatica) and Norway spruce (Picea abies) trees (2012)

Weigt, R. B., Haberle, K. H., Millard, P., Metzger, U., Ritter, W., Blaschke, H., Gottlein, A., Matyssek, R.

Oxford University Press

In: Tree Physiology

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Publication Date: 2012-10-18

Description: Impacts of elevated ground-level ozone (O 3 ) on nitrogen (N) uptake and allocation were studied on mature European beech ( Fagus sylvatica L.) and Norway spruce ( Picea abies [L.] Karst.) in a forest stand, hypothesizing that: (i) chronically elevated O 3 limits nutrient uptake, and (ii) beech responds more sensitively to elevated O 3 than spruce, as previously found for juvenile trees. Tree canopies were exposed to twice-ambient O 3 concentrations (2 x O 3 ) by a free-air fumigation system, with trees under ambient O 3 serving as control. After 5 years of O 3 fumigation, 15 NH 4 15 NO 3 was applied to soil, and concentrations of newly acquired N (N labelled ) and total N (N total ) in plant compartments and soil measured. Under 2 x O 3 , N labelled and N total were increased in the bulk soil and tended to be lower in fine and coarse roots of both species across the soil horizons, supporting hypothesis (i). N labelled was reduced in beech foliage by up to 60%, and by up to 50% in buds under 2 x O 3 . Similarly, N labelled in stem bark and phloem was reduced. No such reduction was observed in spruce, reflecting a stronger effect on N acquisition in beech in accordance with hypothesis (ii). In spruce, 2 x O 3 tended to favour allocation of new N to foliage. N labelled in beech foliage correlated with cumulative seasonal transpiration, indicating impaired N acquisition was probably caused by reduced stomatal conductance and, hence, water transport under elevated O 3 . Stimulated fine root growth under 2 x O 3 with a possible increase of below-ground N sink strength may also have accounted for lowered N allocation to above-ground organs. Reduced N uptake and altered allocation may enhance the use of stored N for growth, possibly affecting long-term stand nutrition.

Print ISSN: 0829-318X

Electronic ISSN: 1758-4469

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition