Your search keyword '"Takahashi, Koichi"' showing total 20 results

1. Elevational changes in productivity of saplings relate to distribution of two congeneric tree species.

Author

Suzuki R and Takahashi K

Subjects

Climate Change, Forests, Plant Leaves physiology, Abies, Trees physiology

Abstract

Elevational changes in vegetation are associated with changes in environmental factors, an example of which is provided by the shade-tolerant Abies mariesii and less shade-tolerant Abies veitchii, which dominate forests at high and low elevations, respectively, in subalpine zones of central Japan. In this study, we sought to establish the factors underlying the differential elevational dominance of these two species from the perspective of sapling growth and survival. It is assumed that the growth and survival of saplings is greater at higher rates of surplus production (the value obtained by subtracting the minimum net production to maintain the current sapling leaf mass from the total net production), as sapling leaf mass gradually declines with time if saplings cannot maintain the current sapling leaf mass, thereby increasing the risk of premature mortality. In this regard, we aimed to verify the following two hypotheses: (1) at low elevations, the surplus production rate of A. veitchii is greater than that of A. mariesii in canopy gaps, and vice versa in the forest understory; and (2) at high elevation, the surplus production rate of A. mariesii is greater than that of A. veitchii in both forest understory and canopy gaps. The results obtained in this study were consistent with our two stated hypotheses. In addition, at the low elevation site, the rate of the growth in height of A. veitchii in canopy gaps was greater than that of A. mariesii, indicating that A. veitchii can dominate after disturbance at low elevations. The findings of this study indicate that the differential elevational distribution of the two Abies species can be attributed to interspecific differences in surplus production rates. We believe that these findings will be useful for predicting changes in the distribution of vegetation in response to climate change., (© 2022. The Author(s) under exclusive licence to The Botanical Society of Japan.)

Published

2022

2. Productivity does not decrease at the climate extremes of tree ranges in the Japanese archipelago.

Author

Takahashi K

Subjects

Climate, Japan, Plant Leaves, Forests, Trees

Abstract

As per the abundant-center hypothesis, the cold- and warm-edges of the latitudinal and elevational distributions of vegetation are the result of physiological limitations caused by abiotic stress. The stand-level productivity per leaf mass of plants is an integrated physiological measure of whole-plant carbon gain. The abundant-center hypothesis specifically predicts that the productivity per leaf mass decreases at cold-edges and warm-edges. In the Japanese archipelago, the dominant functional types of trees change from evergreen hardwoods in the south to deciduous hardwoods and evergreen conifers in the north, forming latitudinal ecotones. This study tested the abundant-center hypothesis by analyzing the productivity per leaf mass of each functional type along a gradient of mean annual temperature (MAT), using forest inventory data. Although productivity per leaf mass was variable along the MAT, it neither increased nor decreased with MAT for each functional tree type. The productivity per leaf mass was also noted to not decrease at the cold-edges for evergreen and deciduous hardwoods or at the warm-edges for deciduous hardwoods and evergreen conifers. Productivity per leaf mass was not positively correlated with abundance. Thus, this study did not support the abundant-center hypothesis. Instead, physiological or ecological limitations, particularly at the seedling and sapling stages, may be the important process affecting the distribution edges of these three functional types., (© 2021. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2021

3. How the timberline formed: altitudinal changes in stand structure and dynamics around the timberline in central Japan.

Author

Takahashi K, Hirosawa T, and Morishima R

Subjects

Climate Change, Cold Temperature, Ecosystem, Japan, Abies growth & development, Altitude, Betula growth & development, Pinus growth & development, Trees growth & development

Abstract

Background and Aims: Altitudinal timberlines are thought to move upward by global warming, a crucial topic in ecology. Tall tree species (the conifer Abies mariesii and the deciduous broad-leaved Betula ermanii) dominate the sub-alpine zone between 1600 and 2500 m a.s.l., the timberline, on Mount Norikura in central Japan. Dwarf pine Pinus pumila dominates above the timberline to near the summit (3026 m a.s.l.). This study evaluated how the timberline formed on Mount Norikura by examining altitudinal changes in stand structure and dynamics around the timberline., Methods: One hundred and twenty-five plots of 10 m × 10 m were established around the timberline (2350-2600 m a.s.l.). Trunk diameter growth rate during 6 years was examined for A. mariesii, B. ermanii and P. pumila. Mortality during this period and mechanical damage scars on the trunks and branches due to strong wind and snow were examined for A. mariesii only., Key Results: The density, maximum trunk height and diameter of A. mariesii in plots decreased with altitude. The maximum trunk height of B. ermanii decreased with altitude, but density and maximum trunk diameter did not decrease. In contrast, the density of P. pumila abruptly increased from around the timberline. A strong negative correlation was found between the densities of P. pumila and tall tree species, indicating their interspecific competition. Trunk diameter growth rates of A. mariesii and B. ermanii did not decrease with altitude, suggesting that these two tall tree species can grow at the timberline. The ratio of trees with mechanical damage scars increased with altitude for A. mariesii, a tendency more conspicuous for larger trees. The mortality of larger A. mariesii was also greater at higher altitude. Tall tree species may not increase their trunk height and survive around the timberline because of mechanical damage., Conclusions: This study suggests that the altitudinal location of the timberline is mainly affected by mechanical damage due to strong wind and snow rather than by growth limitation due to low temperature. Therefore, the timberline would not move upward even under global warming if these growth and mortality characteristics do not change for a long time.

Published

2012

4. Codominance of Acer saccharum and Fagus grandifolia: the role of Fagus root sprouts along a slope gradient in an old-growth forest.

Author

Takahashi K, Arii K, and Lechowicz MJ

Subjects

Plant Roots growth & development, Plant Stems growth & development, Quebec, Acer growth & development, Fagus growth & development, Trees growth & development

Abstract

We studied how the unusual capacity of mature Fagus grandifolia to form clumps of clonal stems from root sprouts can contribute to its frequent codominance with Acer saccharum in southern Quebec, Canada. In an old-growth forest, the degree of dominance by the two species shifted along topographic gradients spanning a few hundreds of meters, with Fagus more frequent on lower slopes and Acer on upper slopes. The frequency distribution of Fagus stem diameter had an inverse J distribution at all slope positions, which is indicative of continuous recruitment. Acer stem diameter also had an inverse J pattern, except at lower slope positions where size structure was discontinuous. For stems <2 m tall, Fagus regenerated mainly by sprouts at the upper and mid-slopes, while regeneration from seed was more pronounced on the lower slope. This change of regeneration mode affected the spatial pattern of Fagus stems. Understory trees of Fagus were positively correlated with conspecific canopy trees on upper and mid-slopes, but not on lower slopes where Fagus regenerated mainly by seedlings. Understory trees of Acer were positively correlated with conspecific canopy trees only on the mid-slope. There were many Fagus seedlings around Acer canopy trees at the lower slope, suggesting the potential replacement of Acer canopy trees by Fagus. This study suggests that the regeneration traits of the two species changed with slope position and that Fagus patches originating from root sprouts can contribute to the maintenance of Acer-Fagus codominance at the scale of local landscapes.

Published

2010

5. Responses of crown development to canopy openings by saplings of eight tropical submontane forest tree species in Indonesia: a comparison with cool-temperate trees.

Author

Takahashi K and Rustandi A

Subjects

Indonesia, Magnoliopsida anatomy & histology, Sunlight, Temperature, Trees anatomy & histology, Magnoliopsida growth & development, Trees growth & development, Tropical Climate

Abstract

Background and Aims: Growth in trunk height in canopy openings is important for saplings. How saplings increase height growth in canopy openings may relate to crown architectural constraints. Responses of crown development to canopy openings in relation to trunk height growth were studied for saplings (0.2-2.5 m tall) of eight tropical submontane forest tree species in Indonesia. The results of this study were also compared with those of temperate trees in northern Japan., Methods: The crown architecture differed among the eight tropical species, i.e. they had sparsely to highly developed branching structures. Crown allometry was compared among the eight species in each canopy condition (closed canopy or canopy openings), and between closed canopy and canopy openings within a species. A general linear regression model was used to analyse how each species increases height growth rate in canopy openings. Crown allometry and its plasticity were compared between tropical and temperate trees by a nested analysis of covariance., Key Results: Tropical submontane trees had responses similar to cool-temperate trees, showing an increase in height in canopy openings, i.e. taller saplings of sparsely branched species increase height growth rates by increasing the sapling leaf area. Cool-temperate trees have a wider crown projection area and a smaller leaf area per crown projection area to avoid self-shading within a crown compared with tropical submontane trees. Plasticity of the crown projection area is greater in cool-temperate trees than in tropical submontane trees, probably because of the difference in leaf longevity., Conclusions: This study concluded that interspecific variation in the responses of crown development to canopy openings in regard to increasing height related to the species' branching structure, and that different life-forms, such as evergreen and deciduous trees, had different crown allometry and plasticity.

Published

2006

6. Effects of Canopy Cover and Seasonal Reduction in Rainfall on Leaf Phenology and Leaf Traits of the Fern Oleandra pistillaris in a Tropical Montane Forest, Indonesia

Author

Takahashi, Koichi

Published

2006

7. Effects of Climatic Conditions on Shoot Elongation of Alpine Dwarf Pine (Pinus pumila) at Its Upper and Lower Altitudinal Limits in Central Japan

Author

Takahashi, Koichi

Published

2003

8. Stand Structure and Regeneration in a Kamchatka Mixed Boreal Forest

Author

Takahashi, Koichi, Homma, Kosuke, Vetrova, Valentina P., Florenzev, Sergey, and Hara, Toshihiko

Published

2001

9. Size-Structure Dynamics of Two Conifers in Relation to Understorey Dwarf Bamboo: A Simulation Study

Author

Takahashi, Koichi and Kohyama, Takashi

Published

1999

10. Regeneration and Coexistence of Two Subalpine Conifer Species in Relation to Dwarf Bamboo in the Understorey

Author

Takahashi, Koichi

Published

1997

11. Mid-successional stand dynamics in a cool-temperate conifer-hardwood forest in northern Japan

Author

Takahashi, Koichi

Published

2010

12. A Weak Relationship between Crown Architectural and Leaf Traits in Saplings of Eight Tropical Rain-Forest Species in Indonesia

Author

Takahashi, Koichi and Mikami, Yumi

Published

2008

13. Do Interspecific Differences in Sapling Growth Traits Contribute to the Co-dominance of Acer saccharum and Fagus grandifolia?

Author

TAKAHASHI, KOICHI and LECHOWICZ, MARTIN J.

Published

2008

14. Regeneration Processes of a Boreal Forest in Kamchatka with Special Reference to the Contribution of Sprouting to Population Maintenance

Author

Homma, Kosuke, Takahashi, Koichi, Hara, Toshihiko, Vetrova, Valentina P., Vyatkina, Marina P., and Florenzev, Sergey

Published

2003

15. Effect of Size Structure, Forest Floor Type and Disturbance Regime on Tree Species Composition in a Coniferous Forest in Japan

Author

Takahashi, Koichi

Published

1994

16. Plastic Response of Crown Architecture to Crowding in Understorey Trees of Two Co-dominating Conifers

Author

TAKAHASHI, KOICHI

Published

1996

17. Altitudinal differences in bud burst and onset and cessation of cambial activity of four subalpine tree species.

Author

Takahashi, Koichi and Koike, Shigeyuki

Subjects

TREES, TREE growth, XYLEM, CAMBIUM

Abstract

This study investigated bud burst and onset and cessation of radial growth (i.e., secondary xylem cell production by cambium) along an altitudinal gradient (1,600-2,800 m a.s.l.) in central Japan, to examine whether timing of the three phenological events are controlled by thermal conditions alone, irrespective of altitude. Measurement was done at biweekly intervals during 3 years (2006-2008) for four subalpine tree species at their upper and lower distribution limits, except for bud burst in 2006. Although bud burst and onset of radial growth were later at higher altitudes in the combined data of the four species, cessation of radial growth occurred in mid-August, irrespective of altitude. Coefficients of variation of timing of the phenological events decreased in the order bud burst, onset of radial growth, and cessation of radial growth in combined data of the four species. Growing degree days (GDD) for bud burst did not differ greatly along the altitudinal gradient for each species. However, GDD for the onset of radial growth was lower at higher altitude. This study suggests that the effects of thermal conditions on the phenological events along the altitudinal gradient might decrease in the order bud burst, onset of radial growth and cessation of radial growth. Probably not only temperature, but also other factors such as day length, may affect onset and cessation of radial growth. However, further research is necessary to examine the altitudinal differences in timing of the phenological events more accurately, by measurements at shorter time intervals than the biweekly intervals of this study. [ABSTRACT FROM AUTHOR]

Published

2014

18. Removal of understory dwarf bamboo ( Sasa kurilensis) induces changes in water-relations characteristics of overstory Betula ermanii trees.

Author

Ishii, Hiroaki T., Kobayashi, Tsuyoshi, Uemura, Shigeru, Takahashi, Koichi, Hanba, Yuko T., Sumida, Akihiro, and Hara, Toshihiko

Subjects

BAMBOO, PLANT water requirements, FORESTS & forestry, PLANT shoots, LEAVES, CARBON isotopes, SOIL moisture, WATER efficiency, TREES

Abstract

We investigated how removal of understory dwarf bamboo ( Sasa kurilensis Makino et Shibata) affected growth and water use of young Betula ermanii Cham. trees in a secondary forest in northern Japan. We compared current-year shoot morphology, leaf water-relations characteristics, and whole-tree water use of B. ermanii trees growing with dwarf bamboo in the understory (intact plot) to those of trees growing where dwarf bamboo was experimentally removed (removal plot). Current-year shoot length and internode frequency increased, while internode length and individual leaf area decreased in response to dwarf bamboo removal. Carbon isotope composition (δ13C) of leaves did not change indicating that leaf water-use efficiency was unaffected by the presence/absence of dwarf bamboo. Pressure–volume analysis indicated that leaves in the removal plot had lower water uptake ability. During mid-summer, trees in the removal plot sustained high sap flow velocity after peaking at midday, while that of trees in the intact plot declined. In addition, whole-tree sap flux and soil-to-leaf hydraulic conductance were both higher for trees in the removal plot. We inferred that the observed changes reflect hydraulic homeostasis of B. ermanii trees to maintain constant water-use efficiency in response to belowground competition with dwarf bamboo. Removal of dwarf bamboo is, therefore, an effective silvicultural prescription to enhance growth of overstory trees by relieving belowground competition for soil water. [ABSTRACT FROM AUTHOR]

Published

2008

19. Plastic changes of leaf mass per area and leaf nitrogen content in response to canopy openings in saplings of eight deciduous broad-leaved tree species.

Author

Takahashi, Koichi, Seino, Tatsuyuki, and Kohyama, Takashi

Subjects

*TREES, *PLANT species, *NITROGEN, *LEAVES, *PLANT canopies, *PLANT growth

Abstract

Leaf nitrogen content per area (Narea) is a good indicator of assimilative capacity of leaves of deciduous broad-leaved trees. This study examined the degrees of increase in Narea in response to canopy openings as leaf mass per area (LMA) and leaf nitrogen content per mass (Nmass) in saplings of eight deciduous broad-leaved tree species in Hokkaido, northern Japan. Five of the species were well-branched species with a large number of small leaves (lateral-growth type), and the other three species were less-branched species with a small number of large leaves (vertical-growth type). The degrees of increase in Narea were compared between the two crown types. In closed-canopy conditions, leaves of the vertical-growth species tended to have a lower LMA and higher Nmass than those of the lateral-growth species, which resulted in similar Narea for both. LMA increased in canopy openings in the eight species, and the degrees of increase were not largely different between the lateral- and vertical-growth species. On the contrary, Nmass was unchanged in canopy openings in the eight species. As a result, Narea of each species increased in canopy openings in proportion to the increase in LMA, and the degrees of increase in Narea were similar in the lateral- and vertical-growth species. Therefore, this study showed that the degrees of increase in Narea were not correlated with the crown architecture (i.e., the lateral- and vertical-growth types). [ABSTRACT FROM AUTHOR]

Published

2005

20. Responses to canopy openings in architectural development of saplings in eight deciduous broad-leaved tree species.

Author

Takahashi, Koichi, Seino, Tatsuyuki, and Kohyama, Takashi

Subjects

*PLANT canopies, *TREES

Abstract

Examines the architectural responses of saplings of eight deciduous broad-leaved tree species to canopy openings in relation to relative height growth rate (RHGR) in Japan. Status of lateral-growth species in closed-canopy conditions; Impetus to the increase in net production rate (NP) per sapling; Dependence of RHGR to NP per sapling.

Published

2001