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2. Cryptic Japanese maple species exhibit different drought tolerance, suggesting reproductive isolation.

Author

Mori, Shigeta, Kurosawa, Yoko, Maruyama, Yutaka, Kikuchi, Satoshi, Ferrio, Juan Pedro, Ishida, Atsushi, and Yamaji, Keiko

Subjects
*DROUGHT tolerance, *FLOWERING time, *ECOLOGICAL niche, *ECOLOGICAL models, REPRODUCTIVE isolation
Abstract

Acer mono is thought to comprise seven varieties, but its classification and nomenclature are controversial. A recent molecular phylogenetic study suggested that A. mono varieties glabrum (G) and mayrii (M) do not interbreed, despite occurring syntopically (same location) and having a common genetic origin. However, if these are separate, reproductively isolated species, the basis for that isolation remains unclear. Here, we tested whether G and M can be considered separate species that differ in multiple ecological characteristics. We compared G and M in terms of distribution, habitats, drought tolerance of leaves, and flowering phenology of trees, and we verified their reproductive isolation (RI) in Japan. G showed higher drought and salt tolerance than M, which is consistent with the distribution of G in salt‐stressed coastal areas with relatively low precipitation. In contrast, M occurs in snowy, mesic, and mountain habitats. Even in neighboring M and G trees, the onset of flowering in M is earlier than that of G. Similarly, flower drop in M is completed sooner than in G. Although the presence of post‐zygotic reproductive barriers was not tested, the high calculated RI index probably contributes to RI. Two varieties of A. mono with a common genetic origin but different drought tolerance should be considered separate species. They likely shifted their climatic niches, involving local adaptation to different climatic conditions. This is roughly supported by an ENM‐based niche analysis and significant differences in flowering time. These findings help to understand the physiological diversification of A. mono. [ABSTRACT FROM AUTHOR]

Published
2024
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5. BAAD: a Biomass And Allometry Database for woody plants

Author

Falster, Daniel S., Duursma, Remko A., Ishihara, Masae I., Barneche, Diego R., FitzJohn, Richard G., Vårhammar, Angelica, Aiba, Masahiro, Ando, Makoto, Anten, Niels, Aspinwall, Michael J., Baltzer, Jennifer L., Baraloto, Christopher, Battaglia, Michael, Battles, John J., Bond-Lamberty, Ben, van Breugel, Michiel, Camac, James, Claveau, Yves, Coll, Lluís, Dannoura, Masako, Delagrange, Sylvain, Domec, Jean-Christophe, Fatemi, Farrah, Feng, Wang, Gargaglione, Veronica, Goto, Yoshiaki, Hagihara, Akio, Hall, Jefferson S., Hamilton, Steve, Harja, Degi, Hiura, Tsutom, Holdaway, Robert, Hutley, Lindsay S., Ichie, Tomoaki, Jokela, Eric J., Kantola, Anu, Kelly, Jeff W. G., Kenzo, Tanaka, King, David, Kloeppel, Brian D., Kohyama, Takashi, Komiyama, Akira, Laclau, Jean-Paul, Lusk, Christopher H., Maguire, Douglas A., le Maire, Guerric, Mäkelä, Annikki, Markesteijn, Lars, Marshall, John, McCulloh, Katherine, Miyata, Itsuo, Mokany, Karel, Mori, Shigeta, Myster, Randall W., Nagano, Masahiro, Naidu, Shawna L., Nouvellon, Yann, O'Grady, Anthony P., O'Hara, Kevin L., Ohtsuka, Toshiyuki, Osada, Noriyuki, Osunkoya, Olusegun O., Peri, Pablo Luis, Petritan, Any Mary, Poorter, Lourens, Portsmuth, Angelika, Potvin, Catherine, Ransijn, Johannes, Reid, Douglas, Ribeiro, Sabina C., Roberts, Scott D., Rodríguez, Rolando, Saldaña-Acosta, Angela, Santa-Regina, Ignacio, Sasa, Kaichiro, Selaya, N. Galia, Sillett, Stephen C., Sterck, Frank, Takagi, Kentaro, Tange, Takeshi, Tanouchi, Hiroyuki, Tissue, David, Umehara, Toru, Utsugi, Hajime, Vadeboncoeur, Matthew A., Valladares, Fernando, Vanninen, Petteri, Wang, Jian R., Wenk, Elizabeth, Williams, Richard, de Aquino Ximenes, Fabiano, Yamaba, Atsushi, Yamada, Toshihiro, Yamakura, Takuo, Yanai, Ruth D., and York, Robert A.

Published
2015

8. Mixed-Power Scaling of Whole-Plant Respiration from Seedlings to Giant Trees

Author

Mori, Shigeta, Yamaji, Keiko, Ishida, Atsushi, Prokushkin, Stanislav G., Masyagina, Oxana V., Hagihara, Akio, Hoque, A. T. M. Rafiqul, Suwa, Rempei, Osawa, Akira, Nishizono, Tomohiro, Ueda, Tatsushiro, Kinjo, Masaru, Miyagi, Tsuyoshi, Kajimoto, Takuya, Koike, Takayoshi, Matsuura, Yojiro, Toma, Takeshi, Zyryanova, Olga A., Abaimov, Anatoly P., Awaya, Yoshio, Araki, Masatake G., Kawasaki, Tatsuro, Chiba, Yukihiro, Umai, Marjnah, and Brown, James Hemphill

Published
2010
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9. Ontogenetic changes in root and shoot respiration, fresh mass and surface area of Fagus crenata.

Author

Kurosawa, Yoko, Mori, Shigeta, Wang, Mofei, Ferrio, Juan Pedro, Nishizono, Tomohiro, Yamaji, Keiko, Koyama, Kohei, Haruma, Toshikatsu, and Doyama, Kohei

Subjects
*RESPIRATION, *BEECH, *SURFACE area, *NONLINEAR regression, *BODY surface area, *PLANT ecology
Abstract

Background and Aims To date, studies on terrestrial plant ecology and evolution have focused primarily on the trade-off patterns in the allocation of metabolic production to roots and shoots in individual plants and the scaling of whole-plant respiration. However, few empirical studies have investigated the root : shoot ratio by considering scaling whole-plant respiration at various sizes throughout ontogeny. Methods Here, using a whole-plant chamber system, we measured the respiration rates, fresh mass and surface area of entire roots and shoots from 377 Fagus crenata individuals, from germinating seeds to mature trees, collected from five different Japanese provenances. Non-linear regression analysis was performed for scaling of root and shoot respiration, fresh mass and surface area with body size. Key Results Whole-plant respiration increased rapidly in germinating seeds. In the seedling to mature tree size range, the scaling of whole-plant respiration to whole-plant fresh mass was expressed as a linear trend on the log–log coordinates (exponent slightly greater than 0.75). In the same body size range, root and shoot respiration vs. whole-plant fresh mass were modelled by upward-convex (exponent decreased from 2.35 to 0.638) and downward-convex trends (exponent increased from –0.918 to 0.864), respectively. The root fraction in whole-plant respiration, fresh mass and surface area shifted continuously throughout ontogeny, increasing in smaller seedlings during early growth stages and decreasing in larger trees. Conclusions Our results suggest a gradual shift in allocation priorities of metabolic energy from roots in seedlings to shoots in mature trees, providing insights into how roots contribute to shoot and whole-plant growth during ontogeny. The models of root : shoot ratio in relation to whole-plant physiology could be applied in tree growth modelling, and in linking the different levels of ecological phenomena, from individuals to ecosystems. [ABSTRACT FROM AUTHOR]

Published
2023
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16. Zn tolerance in the evergreen shrub, Aucuba japonica, naturally growing at a mine site: Cell wall immobilization, aucubin production, and Zn adsorption on fungal mycelia.

Author

Doyama, Kohei, Yamaji, Keiko, Haruma, Toshikatsu, Ishida, Atsushi, Mori, Shigeta, and Kurosawa, Yoko

Subjects
VESICULAR-arbuscular mycorrhizas, HEAVY metals, MINE soils, CITRIC acid, METAL foils, FUNGAL cell walls
Abstract

Aucuba japonica Thunb. is an evergreen understory shrub that grows naturally at a mine site. The mine soil contains high concentrations of heavy metals, and A. japonica appears to maintain detoxification mechanisms against heavy metals in the study site's understory. This study aimed to investigate the heavy metal tolerance mechanisms in A. japonica, considering the possible roles of arbuscular mycorrhizal and root-endophytic fungi. We conducted fieldwork in summer (canopy-foliation season) and winter (canopy-defoliation season) to measure the heavy metal concentrations in leaves, branches, and roots and analyze possible detoxicants in the roots. The infection rates of arbuscular mycorrhizal and root-endophytic fungi were evaluated via microscopic observation, and heavy metal (Zn) localization in A. japonica roots was observed using confocal laser scanning microscopy. Field analysis showed that A. japonica accumulated excessive Zn and produced aucubin and citric acid in the roots in both summer and winter. Zn localization observations clarified that Zn was distributed in thickened epidermal and cortical cell walls, suggesting that the cell walls functioned as Zn deposition sites, reducing Zn toxicity. It was further clarified that Zn was contained within cortical cells, indicating that Zn might be detoxified by aucubin and citric acid. Arbuscular mycorrhizal and root-endophytic fungi within cortical cells adsorbed Zn on fungal cell walls, indicating that these fungi would reduce Zn content within root cells and might alleviate Zn toxicity. Our results indicated that A. japonica would maintain Zn tolerance in both summer and winter via Zn immobilization in the cell walls and production of aucubin and citric acid, and that arbuscular mycorrhizal and root-endophytic fungi might play important roles in the Zn tolerance of A. japonica. [ABSTRACT FROM AUTHOR]

Published
2021
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17. Initial burst of root development with decreasing respiratory carbon cost in Fagus crenata Blume seedlings.

Author

Kurosawa, Yoko, Mori, Shigeta, Wang, Mofei, Ferrio, Juan Pedro, Yamaji, Keiko, Koyama, Kohei, Haruma, Toshikatsu, and Doyama, Kohei

Subjects
*ROOT development, *PLANT-water relationships, *BEECH, *ROOT growth, *PLANT roots, *SEEDLINGS
Abstract

As terrestrial plants are rooted in one place, their metabolism must be acclimatized to continuously changing environmental conditions. This process is influenced by different metabolic traits of plant organs during ontogeny. However, direct measurement of organ‐specific metabolic rates is particularly scarce, and little is known about their roles in whole‐plant metabolism. In this study, we investigated size scaling of respiration rate, fresh mass and surface area of leaves, stems and roots in 65 seedlings of Fagus crenata Blume (2 weeks to 16 months old). With the increase in plant mass, the proportion of roots in whole plants increased from 20.8 to 87.3% in fresh mass and from 12.8 to 95.0% in surface area, whereas there was only a 15.6 to 60.2% increase in respiration rate. As a result, the fresh‐mass‐specific and surface‐area‐specific respiration rates in the roots decreased by 85% and 90%, respectively, and these decreases were significantly size dependent. However, such a size‐dependent decrease was not observed for the surface‐area‐specific respiration rate in the leaves and stems. It is likely that this rapid root development is specific to the early growth stage after germination and would help plants acquire water and nutrients efficiently (i.e., at relatively low respiratory carbon costs). Overall, it is probable that the establishment of F. crenata forests and survival of F. crenata seedlings could be promoted by substantial root growth, with a reduction in respiratory carbon cost. [ABSTRACT FROM AUTHOR]

Published
2021
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18. Soil respiration in larch and pine ecosystems of the Krasnoyarsk region (Russian Federation): a latitudinal comparative study.

Author

Masyagina, Oxana V., Menyailo, Oleg V., Prokushkin, Anatoly S., Matvienko, Anastasia I., Makhnykina, Anastasia V., Evgrafova, Svetlana Yu., Mori, Shigeta, Koike, Takayoshi, and Prokushkin, Stanislav G.

Abstract

Based on the long-term (12 years) data on soil respiration (SR) measurements in representative conifer forests of the Krasnoyarsk region (Central Siberia), we demonstrated specific characteristics of SR. The study sites located closely to Arctic Circle were related to different latitudes, including 56° N (SAE site, Krasnoyarsk), 60° N (ZOTTO site, Zotino), and 64° N (Tura site, Evenkia). Study sites were selected in forest ecosystems (> 41 years old) and represented a wide range of the climate, stand, permafrost availability, and soil types. However, the mean seasonal values of SR (mean ± SD) varied in a relatively narrow range from 2.11 ± 0.69 in the forest-steppe zone (SAE) to 2.82 ± 1.77 μmol CO2 m−2 s−1 in northern larch taiga (Tura). Nevertheless, a twofold difference in the duration of growing season among northern and southern locations results in a variation of total seasonal CO2 emissions (mean ± SD) from 216 ± 136 g C m−2 in larch stands of northern taiga to 369 ± 115 g C m−2 in larch stands of southern forest-steppe zone. Evaluation of the multiannual dynamics of SR over the past 1.5 decades (1995–2010) showed the escalation of SR in the permafrost larch stands (Tura) in 2005–2010. That has been coupled with the enhanced activity of the soil heterotrophic microbiota in 2007–2010. Our study highlights the importance of further monitoring of SR in permafrost Siberian ecosystems. [ABSTRACT FROM AUTHOR]

Published
2020
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19. Seasonal variation in the size-dependent respiration of mangroves Kandelia obovata.

Author

Rafiqul Hoque, A. T. M., Sharma, Sahadev, Suwa, Rempei, Mori, Shigeta, and Hagihara, Akio

Subjects
MANGROVE plants, PLANT variation, RESPIRATION in plants, SEASHORE plants, TREE growth, TREE physiology, PLANT growth, PLANT mechanics, PLANT physiology, PHYSIOLOGY
Abstract

The article presents a study which investigates the size-dependence and seasonal variation in respiration of mangrove trees Kandelia obovata. It examined that respiration rate of the mangrove trees at a monthly mean temperature increased with increasing mass. It found that the increase in respiration from the winter dormant season to the summer growing season was large in the small-sized trees compared with that in the larged-sized trees. It also observed that the variation in respiration between the two seasons is explained on the basis of theories about resource harvesting and transport.

Published
2010
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20. Size–mass allometry and biomass allocation of two larch species growing on the continuous permafrost region in Siberia.

Author

Kajimoto, Takuya, Matsuura, Yojiro, Osawa, Akira, Abaimov, Anatoly P., Zyryanova, Olga A., Isaev, Alexander P., Yefremov, Daniel P., Mori, Shigeta, and Koike, Takayoshi

Subjects
ALLOMETRY, BIOMASS, LARCHES, SAPWOOD
Abstract

Abstract: We examined size–mass allometry and biomass allocation of two larch species (Larix gmelinii (Rupr.) Rupr. and Larix cajanderi Mayer) that grow on the continuous permafrost regions in Siberia. Sample tree data (total n =27) gathered from four mature stands (>100 years old) were employed for analysis. First, to determine good size predictor of biomass, site-specific allometric relationships (log-linear equation form) were derived between dry mass of four components (stem, branch, needle and coarse root; ≥5mm in diameter) and seven size variables; stem diameters (breast height, 30cm height and crown base), sapwood areas (breast height and 30cm height), and two combined-variables (tree height×diameter). For all components, site-specific allometric equations based on breast-height diameter (D) always gave high correlations as those using other size variables. However, between-stand comparisons of the D-base site-specific allometry indicated that size dependency (i.e., regression slope) differed for stem mass. Besides, needle and coarse root mass for a given size (i.e., regression intercept) differed significantly among the four stands. These facts implied that D-base regression model was reliable for biomass estimation by site-specific allometry, but was not suitable for developing general (i.e., site-common) allometry. Second, to examine carbon allocation pattern, we estimated each stand biomass by applying corresponding site-specific D-base allometry. Stand total biomass ranged from 8.6 to 33.1Mgha−1, and aboveground-total/coarse root biomass ratio (i.e., T/R) ranged from 1.5 to 2.6. The variation was mainly due to trade-offs between stem and root biomass. Average T/R was about 2.3 that was calculated for some reported L. gmelinii and L. cajanderi stands (n =16), including our four stands. This average T/R was extremely small in comparison to that (5.1) of Scots pine (Pinus sylvestris L.) stands on the non- or discontinuous permafrost regions in Siberia. This finding strongly suggested that the two Larix species invested annual carbon gains largely into root growth. We discussed its ecological implications in relation to stand structure and permafrost soil-N conditions in the larch taiga ecosystem. [Copyright &y& Elsevier]

Published
2006
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21. Growth and annual ring structure of Larix sibirica grown at different carbon dioxide concentrations and nutrient supply rates.

Author

Yazaki, Kenichi, Funada, Ryo, Mori, Shigeta, Maruyama, Yutaka, Abaimov, Anatoly P., Kayama, Masazumi, and Koike, Takayoshi

Subjects
PLANT growth, CARBON dioxide, SIBERIAN larch, XYLEM, TRACHEARY cells
Abstract

We compared effects of ambient (360 vpm) and elevated (720 vpm) carbon dioxide concentration ([CO2]) and high and low nutrient supply rates on stem growth, annual ring structure and tracheid anatomy of Siberian larch (Larix sibirica Ledeb.) seedlings over two growing seasons. Elevated [CO2] had no significant effect on either stem height or diameter growth; however, both stem height and diameter growth were enhanced by the high nutrient supply rate, and these increases were stimulated by elevated [CO2]. Elevated [CO2] tended to increase the width of the annual xylem ring, the number of cells in a radial file spanning the ring, and tracheid lumen diameter, whereas it tended to reduce cell wall thickness, although there were no statistically significant CO2 effects on tracheid anatomy. Changes in tracheid cell morphology seemed to be dependent on changes in shoot elongation rates. [ABSTRACT FROM PUBLISHER]

Published
2001
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22. Leaf morphology and photosynthetic adjustments among deciduous broad-leaved trees within the vertical canopy profile.

Author

Koike, Takayoshi, Kitao, Mitsutoshi, Maruyama, Yutaka, Mori, Shigeta, and Lei, Thomasi T.

Subjects
LEAVES, PLANT morphology, PHOTOSYNTHESIS, ACCLIMATIZATION, CHLOROPHYLL, PLANT species
Abstract

Photosynthetic acclimation of deciduous broad-leaved tree species was studied along a vertical gradient within the canopy of a multi-species deciduous forest in northern Japan. We investigated variations in (1) local light regime and CO2 concentration ([CO2]), and (2) morphological (area, thickness and area per mass), biochemical (nitrogen and chlorophyll concentrations) and physiological (light-saturated photosynthetic rate) attributes of leaves of seven major species on three occasions (June, August and October). We studied early successional species, alder (Alnus hirsuta (Spach) Rupr.) and birch (Betula platyphylla var. japonica(Miq.) Hara); gap phase species, walnut (Juglans ailanthifoliaCarrière) and ash (Fraxinus mandshurica var. japonica Rupr.); mid-successional species, basswood (Tilia japonica (Miq.) Simonk.) and elm (Ulmus davidiana var. japonica (Rehd.) Nakai); and the late-successional species, maple (Acer monoBunge). All but maple initiated leaf unfolding from the lower part of the crown. The [CO2] within the vertical profile ranged from 320–350 ppm in the upper canopy to 405–560 ppm near the ground. The lowest and highest ambient [CO2] occured during the day and during the night, respectively. This trend was observed consistently during the summer, but not when trees were leafless. Chlorophyll concentration was positively related to maximum photosynthetic rate within, but not among, species. Leaf senescence started from the inner part of the crown in alder and birch, but started either in the outer or top portion of the canopy of ash, basswood and maple. Chlorophyll (Chl) to nitrogen ratio in leaves increased with decreasing photon flux density. However, Chl b concentration in all species remained stable until the beginning of leaf senescence. Maximum photosynthetic rates observed in sun leaves of early successional species, gap phase or mid-successional species, and late successional species were 12.5–14.8 μmol m−2 s−1, 4.1–7.8 μmol m−2 s−1 and 3.1 μmol m−2 s−1, respectively. [ABSTRACT FROM AUTHOR]

Published
2001
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23. Variations in leaf β13C along a vertical profile of irradiance in a temperate Japanese forest.

Author

Hanba, Y. T., Mori, Shigeta, Lei, Thomas T., Koike, Takayoshi, and Wada, Eitaro

Abstract

The vertical profile of stable carbon isotope ratios (δ13C) of leaves was analyzed for 13 tree species in a cool-temperate deciduous forest in Japan. The vertical distribution of long-term averaged δ13C in atmospheric CO2a) was estimated from δ13C of dry matter from NADP-malic enzyme type C4 plant ( Zea mays L. var. saccharata Sturt.) grown at a tower in the forest for 32␣days, assuming constant Δ value (3.3‰) in Z. mays against height. The δa value obtained from δ13C in Z.␣mays was lowest at the forest floor (−9.30 ± 0.03‰), increased with height, and was almost constant above 10␣m (−7.14 ± 0.14‰). Then leaf Δ values for the tree species were calculated from tree leaf δ13 C andδa. Mean leaf Δ values for the three tall deciduous species ( Fraxinus mandshurica, Ulmus davidiana, and Alnus hirsuta) were significantly different among three height levels in the forest: 23.1 ± 0.7‰ at the forest floor (understory), 21.4 ± 0.5‰ in lower canopy, and 20.5 ± 0.3‰ in upper canopy. The true difference in tree leaf Δ among the forest height levels might be even greater, because Δ in Z. mays probably increased with shading by up to ∼‰. The difference in tree leaf Δ among the forest height levels would be mainly due to decreasing intercellular CO2 ( Ci) with the increase in irradiance. Potential assimilation rate for the three tree species probably increased with height, since leaf nitrogen content on an area basis for these species also increased with height. However, the increase in stomatal conductance for these tree species would fail to meet the increase in potential assimilation rate, which might lead to increasing the degree of stomatal limitation in photosynthesis with height. [ABSTRACT FROM AUTHOR]

Published
1997
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24. Growth Responses of the Cuttings of Two Willow Species to Elevated CO2 and Temperature.

Author

Koike, Takayoshi, Kohda, Hideho, Mori, Shigeta, Takahashi, Kunihide, Inoue, Mario T., and Lei, Thomas T.

Subjects
WILLOWS, PLANT growth, PLANT cuttings, COMPETITION (Biology), PLANT shoots, EFFECT of carbon dioxide on plants, PHOTOSYNTHESIS
Abstract

Growth of the cuttings of two willows (Salix sachalinensis Fr. Schmidt and S. miyabeana Seeman) was examined at CO2 levels of 36 Pa and 70 Pa and at two temperature regimes to assess possible changes in the competitive abilities between the two species under elevated CO2 and temperature. Both willows are typical light demanding species. At 70 Pa CO2. the formation of sylleptic shoots of was accelerated to a greater extent In S. sachelinensis than in S. miyabeane. In both species, leaf area, specific leaf area, and chlorophyll and nitrogen concentrations decreased under elevated CO2. A positive correlation between foils, nitrogen concentration and net photosynthetic rate measured at growth CO2 level was observed. In all treatments, nitrogen use efficiency for the photosynthetic capacity was higher In S. sachalinensis than in S. miyabeana. After 78 days of cultivation, dry mass of the whole plant Was 1.5 times greater for S. miyabeane than for S. sachalinensis. Under fertile conditions, S. miyabeana may be more competitive than S. sachalinensis in an early stage of regeneration as a result of its rapid height growth. [ABSTRACT FROM AUTHOR]

Published
1995
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25. Characteristics of the Light Response in Seedlings and Saplings of Two Mid-Successional Species, Ash and Kalopanax, During the Early Stage of Regeneration in a Mature Forest.

Author

Koike, Takayoshi, Tabuchi, Ryuichi, Takahashi, Kunihide, Mori, Shigeta, and Lei, Thomas T.

Abstract

Growth characteristics of ash (Fraxinus mandshuricavar. japonicd)and kalopanax (Kalopanax pictus), two mid-succcs-sional species, were monitored in relation to seasonal light in a deciduous broadleaf forest. During the growing, relative light intensity of the gap was 4 to 6 times higher than that under the closed canopy. Seedlings could be found on the mixed hardwood forest floor where relative light intensity was around greater than 7% of full sunlight. When saplings gap openings which had relative light intensities above 20%, they quickly developed lateral branches and increased their foliage volume. The light-photosynthesis curve of seedlings of both species showed a curve typical of the “shade leaf” type even though they grew under sunlight. In contrast, saplings of both species showed the “sun leaf” type of light-photosynthesis curve. This seedling to sapling shift from shade to sun adaptation was also found in other foliage characteristics. This study shows that species can efficiently adjust their leaf and branch characteristics to changing light environments from shade to openings in a forest. [ABSTRACT FROM PUBLISHER]

Published
1997
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26. Age-Dependent Changes in Soil Respiration and Associated Parameters in Siberian Permafrost Larch Stands Affected by Wildfire.

Author

Masyagina, Oxana V., Evgrafova, Svetlana Y., Menyailo, Oleg V., Mori, Shigeta, Koike, Takayoshi, and Prokushkin, Stanislav G.

Subjects
SOIL respiration, SOIL moisture, PERMAFROST, FOREST fires, LARCHES, WILDFIRE prevention, FIRE management, WILDFIRES
Abstract

The observed high spatial variation in soil respiration (SR) and associated parameters emphasized the importance of SR heterogeneity at high latitudes and the involvement of many factors in its regulation, especially within fire-affected areas. The problem of estimating CO2 emissions during post-fire recovery in high-latitude ecosystems addresses the mutual influence of wildfires and climate change on the C cycle. Despite its importance, especially in permafrost regions because of their vulnerability, the mutual influence of these factors on CO2 dynamics has rarely been studied. Thus, we aimed to understand the dynamics of soil respiration (SR) in wildfire-affected larch recovery successions. We analyzed 16-year data (1995–2010) on SR and associated soil, biological, and environmental parameters obtained during several field studies in larch stands of different ages (0–276 years) in the Krasnoyarsk region (Russia). We observed a high variation in SR and related parameters among the study sites. SR varied from 1.77 ± 1.18 (mean ± SD) µmol CO2 m−2 s−1 in the 0–10-year-old group to 5.18 ± 2.70 µmol CO2 m−2 s−1 in the 150–276-year-old group. We found a significant increasing trend in SR in the 88–141-year old group during the study period, which was related to the significant decrease in soil water content due to the shortage of precipitation during the growing season. We observed a high spatial variation in SR, which was primarily regulated by biological and environmental factors. Different parameters were the main contributors to SR in each group, an SR was significantly affected by the inter-relationships between the studied parameters. The obtained results can be incorporated into the existing SR databases, which can allow their use in the construction and validation of C transport models as well as in monitoring global fluctuations in the C cycle in response to climate change. [ABSTRACT FROM AUTHOR]

Published
2021
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27. Hydraulic Constraints to Whole-Tree Water Use and Respiration in Young Cryptomeria Trees under Competition.

Author

Ferrio, Juan Pedro, Kurosawa, Yoko, Wang, Mofei, and Mori, Shigeta

Subjects
CRYPTOMERIA, WATER requirements for trees, PLANT transpiration, RESPIRATION in plants, LEAF physiology
Abstract

Although extensive studies have focused on carbon and water balance from aboveground measurements, the link between the belowground and aboveground processes deserves greater attention. In this context, the aim of this work was to assess the bi-directional feedback between whole-plant respiration and transpiration. The study was performed on 25 saplings of Sugi (Japanese cedar, Cryptomeria japonica D. Don), including dominant and suppressed individuals (total fresh weight ranging between 0.2 and 8.0 kg). During one week, the integrated water use (WU) was determined using the Deuterium dilution method. After this, the trees were uprooted and the root, stem, and leaf respiration were measured using incubation chambers and CO2 infrared sensors. The stem and root respiration followed a power response to mass (power exponent b < 1), implying a decline in mass-specific respiration with size. Conversely, the leaf respiration followed a near-linear increase with size (power exponent b ≈ 1), but was negatively affected by the stem density, indicating the hydraulic limitations of the leaf metabolism. The water use followed a power response with the tree size (b < 1), showing a decline in the transpiration per leaf mass with the tree size, but was also negatively correlated with the stem density. Our results indicate that dominant trees are more efficient in the use of water, and highlight the role of hydraulic limitations to leaf metabolism in suppressed trees. [ABSTRACT FROM AUTHOR]

Published
2018
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28. Characteristics of the light response in seedlings and saplings of two mid-successional species, ash and kalopanax, during the early stage of regeneration in a mature forest

Author

Mori, Shigeta, Koike, Takayoshi, Tabuchi, Ryuichi, Takahashi, Kunihide, and Lei, Thomas T.

Subjects
*ECOPHYSIOLOGY, *FORESTS & forestry
Abstract

Growth characteristics of ash (Fraxinus mandshurica var. japonica) and kalopanax (Kalopanax pictus), two mid-successional species, were monitored in relation to seasonal light in a deciduous broadleaf forest. During the growing, relative light intensity of the gap was 4 to 6times higher than that under the closed canopy. Seedlings could be found on the mixed hardwood forest floor where relative light intensity was around greater than 7% of full sunlight. When saplings gap openings which had relative light intensities above 20%, they quickly developed lateral branches and increased their foliage volume. The light-photosynthesis curve of seedlings of both species showed a curve typical of the 'shade leaf' type even though they grew under sunlight. In contrast, saplings of both species showed the 'sun leaf' type of light-photosynthesis curve. This seedling to sapling shift from shade to sun adaptation was also found in other foliage characteristics. This study shows that species can efficiently adjust their leaf and branch characteristics to changing light environments from shade to openings in a forest. [ABSTRACT FROM AUTHOR]

Published
1998

29. Distributional (In)Congruence of Biodiversity-Ecosystem Functioning.

Author

Mulder, Christian, Boit, Alice, Mori, Shigeta, Vonk, J. Arie, Dyer, Scott D., Faggiano, Leslie, Geisen, Stefan, González, Angélica L., Kaspari, Michael, Lavorel, Sandra, Marquet, Pablo A., Rossberg, Axel G., Sterner, Robert W., Voigt, Winfried, and Wall, Diana H.

Subjects
*BIODIVERSITY, *BIOTIC communities, *ECOLOGICAL niche, *GYMNOSPERMS, *ANGIOSPERMS, *RESPIRATION
Abstract

The majority of research on biodiversity-ecosystem functioning in laboratories has concentrated on a few traits, but there is increasing evidence from the field that functional diversity controls ecosystem functioning more often than does species number. Given the importance of traits as predictors of niche complementarity and community structures, we (1 ) examine how the diversity sensu lato of forest trees, freshwater fishes and soil invertebrates might support ecosystem functioning and (2) discuss the relevance of productive biota for monophyletic assemblages (taxocenes). In terrestrial ecosystems, correlating traits to abiotic factors is complicated by the appropriate choice of body-size distributions. Angiosperm and gymnosperm trees, for example, show metabolic incongruences in their respiration rates despite their pronounced macroecological scaling. Scaling heterotrophic organisms within their monophyletic assemblages seems more difficult than scaling autotrophs: in contrast to the generally observed decline of mass-specific metabolic rates with body mass within metazoans, soil organisms such as protozoans show opposite mass-specific trends. At the community level, the resource demand of metazoans shapes multitrophic interactions. Hence, population densities and their food web relationships reflect functional diversity, but the influence of biodiversity on stability and ecosystem functioning remains less clear. We focused on fishes in 18 riverine food webs, where the ratio of primary versus secondary extinctions (hereafter, 'extinction partitioningO summarizes the responses of fish communities to primary species loss (deletions) and its consequences. Based on extinction partitioning, our high-diversity food webs were just as (or even more) vulnerable to extinctions as low-diversity food webs. Our analysis allows us to assess consequences of the relocation or removal offish species and to help with decision-making in sustainable river management. The study highlights that the topology of food webs (and not simply taxonomic diversity) plays a greater role in stabilizing the food web and enhancing ecological services than is currently acknowledged. [ABSTRACT FROM AUTHOR]

Published
2012
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