PUBLICATIONS

はじめに

JaLTER Takayamaサイトに関連した文献のリストです。PDFファイルについては以下から入手できますが、パスワードロックがかけてあります。高山関連の文献に興味がある方はお手数ですが下記までご一報ください。パスワードをお知らせいたします。一週間ほどたっても返信がない場合には、お手数ですが再度ご連絡下さい。

問い合わせ先：
岐阜大学流域圏科学研究センター
斎藤琢（taku＠green.gifu-u.ac.jp)
＠は半角にしてください。

If interested in our publications, please send e-mail to taku[at]green.gifu-u.ac.jp for the user name and password to access the pdf files. plaase change [at] to @.

TKY site PDF file （Password protected）

TKC site PDF file （Password protected）

Multi-site, River basin scale, other sites PDF file （Password protected）

Publication in 2022

AsiaFlux TKY (冷温帯落葉広葉樹林)

1. Yamamoto, Y., Ichii, K., Ryu, Y., Kang, M., Murayama, S. (2022) Uncertainty quantification in land surface temperature retrieved from Himawari-8/AHI data by operational algorithms. ISPRS Journal of Photogrammetry and Remote Sensing, 191, 171-187. DOI: 10.1016/j.isprsjprs.2022.07.008
2. Shen Y., Takata K., Kudo K. Muraoka H., Saitoh T.M., Hirano Y. Yasue K. (2022) Effects of climate on the tree ring density and weight of Betula ermanii in a cool temperate forest in central Japan. Trees. https://doi.org/10.1007/s00468-022-02315-y
3. Morozumi T., Kato T., Kobayashi H., Sakai Y., Nakashima N., Buareal K., Nasahara K.N., Akitsu T.K., Murayama S., Noda H.M. and Muraoka H. (2022) Contributions of the understory and midstory to total canopy solar-induced chlorophyll fluorescence in a ground-based study in conjunction with seasonal gross primary productivity in a cool-temperate deciduous broadleaf forest. Remote Sensing of Environment, https://doi.org/10.1016/j.rse.2022.113340
4. Muraoka H. (2022) Chapter1: Phenology of photosynthesis in a deciduous broadleaf forest:implications for the carbon cycle in a changing environment, in River basin environment: evaluation, management and conservation, Springer Nature Singapore, Li F. Awaya Y., Kageyama K., Wei Y. (eds.), https://doi.org/10.1007/978-981-19-4070-5_1

AsiaFlux TKC (冷温帯常緑針葉樹林）

広域/複数，大八賀川流域, その他のサイト

1. Saitoh T.M., Shin N., Toriyama J., Murayama S., Yasue K. (2022) Chapter3: Forest carbon sequestration in mountainous region in Japan under ongoing climate change: implication for future research, in River basin environment: evaluation, management and conservation, Springer Nature Singapore, Li F. Awaya Y., Kageyama K., Wei Y. (eds.), https://doi.org/10.1007/978-981-19-4070-5_3
2. Chen S.,Cao R.,Yoshitake S., Iimura Y. Ohtsuka T.(2022) Chapter2: Ecological significance of throughfall and stemflow to the carbon cycle in forest ecosystems, in River basin environment: evaluation, management and conservation, Springer Nature Singapore, Li F. Awaya Y., Kageyama K., Wei Y. (eds.), https://doi.org/10.1007/978-981-19-4070-5_2
3. Awaya Y. (2022) Chapter4: Woody biomass change monitoring in temperate montane forests by airborne LiDAR analysis, in River basin environment: evaluation, management and conservation, Springer Nature Singapore, Li F. Awaya Y., Kageyama K., Wei Y. (eds.), https://doi.org/10.1007/978-981-19-4070-5_4

Publication in 2021

AsiaFlux TKY (冷温帯落葉広葉樹林)

AsiaFlux TKC (冷温帯常緑針葉樹林）

1. 平野優・斎藤琢・武津英太郎・小林元・村岡裕由・沈昱東・安江恒（2021）冷温帯におけるスギの肥大成長と炭素収支，気候要素との関係, 木材学会誌，67，117-128, https://doi.org/10.2488/jwrs.67.117（第15回日本木材学会論文賞）

広域/複数，大八賀川流域, その他のサイト

1. Toriyama J., Hashimoto S., Osone　Y., Yamashita　N., Tsurita T., Shimizu T., Saitoh T.M., Sawano S., Lehtonen A., Ishizuka S.（2021）Estimating spatial variation in the effects of climate change on the net primary production of Japanese cedar plantations based on modeled carbon dynamics, PLoS ONE, 16, e0247165. https://doi.org/10.1371/journal.pone.0247165
2. Chang S.-C., Saitoh TM*., Shibata H., Suzuki S.N. (2021) Recent advances in the understanding of ecosystem processes at eddy covariance CO2 flux sites in East Asian forest ecosystems: a review, Journal of Agricultural Meteorology, 77, 52-65, https://doi.org/10.2480/agrmet.D-20-00018 (Review) (/li)
3. Araki K., Awaya Y. (2021) Analysis and Prediction of Gap Dynamics in a Secondary Deciduous Broadleaf Forest of Central Japan Using Airborne Multi-LiDAR Observations. Remote Sens. 2021, 13, 100. https://doi.org/10.3390/rs13010100
4. Shin N., Saitoh T.M., Nasahara K.N. (2021) How did the characteristics of the growing season change during the past 100 years at a steep river basin in Japan? PLoS ONE 16, e0255078. https://doi.org/10.1371/journal.pone.0255078.
5. He, L., Lai, C.-T., Mayes M. A., Murayama, S., Xu, X. (2021) Microbial seasonality promotes soil respiratory carbon emission in natural ecosystems: A modeling study. Global Change Biology, 27, 3035?3051. DOI: 10.1111/gcb.15627
6. 永井 信・丸谷靖幸・斎藤琢 (2021) 中山間地域の流域における人・森林・気象災害の現状と関わり: 高山市大八賀川流域における豪雨・豪雪を事例として. 流域圏学会誌. 8(1): 10?24（査読付き解説）
7. 安江恒・斎藤琢（2021）「第3章 スギの肥大成長と炭素収支の関係性」,『気候変動が人工林に及ぼす影響を予測する』, 森林総合研究所, pp12-15 ISBN：978-4-909941-20-6

Publication in 2020

AsiaFlux TKY (冷温帯落葉広葉樹林)

1. Shen Y., Fukatsu E., Muraoka H., Saitoh T.M., Hirano Y., Yasue K. (2020) Climate responses of ring widths and radial growth phenology of Betula ermanii, Fagus crenata and Quercus crispula in a cool temperate forest in central Japan. Trees (in press, doi.org/10.1007/s00468-019-01948-w)
2. Noda H.M., Muraoka H., Nasahara K.N. (2020) Phenology of leaf optical properties and their relationship to mesophyll development in cool-temperate deciduous broad-leaf trees. Agricultural and Forest Meteorology (in press)

AsiaFlux TKC (冷温帯常緑針葉樹林）

1. 平野優・斎藤琢・武津英太郎・小林元・村岡裕由・沈昱東・安江恒 (2020) 中部地方に生育するスギの年輪構造と気候要素との関係．木材学会誌，66, 117-127, https://doi.org/10.2488/jwrs.66.117（第14回日本木材学会論文賞）

広域/複数，大八賀川流域, その他のサイト

1. Ueyama M., Ichii K., Kobayashi H., Kumagai T., Beringer J., Merbold L., Euskirchen E., Hirano T., Belelli M.L., Baldocchi D., Saitoh T.M., Mizoguchi Y., Ono K., Kim J., Varlagin A., Kang M., Shimizu T., Kosugi Y., Bret-Harte M., Machimura T., Matsuura Y., Ohta T., Takagi K., Takanashi S., Yasuda Y. (2020) Inferring CO2 fertilization effect based on global monitoring land-atmosphere exchange with a theoretical model, Environmental Research Letters, 15, 084009, https://doi.org/10.1088/1748-9326/ab79e5

Publication in 2019

AsiaFlux TKY (冷温帯落葉広葉樹林)

1. Cao R., Shen, S., Yoshitake S., Ohtsuka T. (2019) Nitrogen Deposition and Responses of Forest Structure to Nitrogen Deposition in a Cool-Temperate Deciduous Forest. Forests 10: 631. (DOI: doi:10.3390/f10080631)

AsiaFlux TKC (冷温帯常緑針葉樹林）

広域/複数，大八賀川流域, その他のサイト

1. 村岡裕由・丸谷靖幸・永井信（2019）山地森林の炭素循環と生態系機能の環境応答に関する長期・複合的研究の展望．地学雑誌 128: 129-146
2. Suzuki S.N., Ataka M, Djukic I., Enoki T., Fukuzawa K., Hirota M., Hishi T., Hiura T., Hoshizaki K., Ida H., Iguchi A., Iimura Y., Ise T., Kenta T., Kina Y., Kobayashi H., Kominami Y., Kurokawa H., Makoto K., Matsushita M., Miyata R., Muraoka H., Nakaji T., Seino T., Shibata J., Suzuki R.O., Takahashi K., Tunoda T., Ustumi T. and Wayanabe K. (2019) Harmonized data on early stage litter decomposition using tea material across Japan. Ecological Research, DOI: 10.1111/1440-1703.12032
3. Miura T., Nagai S., Takeuchi M., Ichii K., Yoshioka H. (2019) Improved Characterisation of Vegetation and Land Surface Seasonal Dynamics in Central Japan with Himawari-8 Hypertemporal Data. Scientific Reports 9:15692. (https://doi.org/10.1038/s41598-019-52076-x)
4. Musavi, T., Migliavacca, M., Reichstein, M., Kattge, J., Wirth, C., Black, T. A., Janssens, I., Knohl, A., Loustau, D., Roupsard, O., Varlagin, A., Rambal, S., Cescatti, A., Gianelle, D., Kondo, H., Tamrakar, R. and Mahecha, M. D. (2019) Stand age and species richness dampen interannual variation of ecosystem-level photosynthetic capacity, Nature Ecology and Evolution, 3, 501, doi:10.1038/s41559-019-0829-y.

Publication in 2018

AsiaFlux TKY (冷温帯落葉広葉樹林)

1. Nagai S., Akitsu T., Saitoh T.M., Busey R.C., Fukuzawa K., Honda Y., Ichie T., Ide R., Ikawa H., Iwasaki A., Iwao K., Kajiwara K., Kang S., Kim Y., Khoon K.L., Kononov A.V., Kosugi Y., Maeda T., Mamiya W., Matsuoka M., Maximov T.C., Menzel A., Miura T., Mizunuma T., Morozumi T., Motohka T., Muraoka H., Nagano H., Nakai T., Nakaji T., Oguma H., Ohta T., Ono K., Pungga R.A.S., Petrov R.E., Sakai R., Schunk C., Sekikawa S., Shakhmatov R., Son Y., Sugimoto A., Suzuki R., Takagi K., Takanashi S., Tei S., Tsuchida S., Yamamoto H., Yamasaki E., Yamashita M., Yoon T.K., Yoshida T., Yoshimura M., Yoshitake S., Wilkinson M., Wingate L, Nasahara K.N. (2018) 8 million phenological and sky images from 29 ecosystems from the Arctic to the tropics: the Phenological Eyes Network. Ecological Research 33(6): 1091?1092. (DOI: 10.1007/s11284-018-1633-x)
2. Suminokura N., Suzuki M., Tanami K., Tomotsune M., Yoshitake S., Koizumi H. (2018) Non-destructive measurement of soil respiration in a grassland ecosystem using the multiple-microchambers method. Ecological Research 33: 471?477. (DOI: 10.1007/s11284-018-1562-8)

AsiaFlux TKC (冷温帯常緑針葉樹林）

1. Nagai S., Saitoh T.M., Kajiwara K., Yoshitake S., Honda Y. (2018) Investigation of the potential of drone observations for detection of forest disturbance caused by heavy snow damage in a Japanese cedar (Cryptomeria japonica) forest. Journal of Agricultural Meteorology 74(3): 123-127. (DOI: 10.2480/agrmet.D-17-00038)

広域/複数，大八賀川流域, その他のサイト

1. Melnikova I, Awaya Y., Saitoh T.M., Muraoka H., Sasai T. (2018) Estimation of leaf area index in a mountain forest of central Japan with a 30-m spatial resolution based on Landsat Operational Land Imager imagery: An application of a simple model for seasonal monitoring. Remote Sensing, 10(179), DOI:10.3390/rs10020179.
2. Kim ES., Trisurat Y., Muraoka H., Shibata H., Amoroso V., Boldgiv B., Hoshizaki K., Kassim AR., Kim YS., Nguyen HQ., Ohte N., Ong P. and Wang CP (2018) International Long-Term Ecological Research East Asia-Pacific Regional Network (ILTER-EAP): History, development and perspectives. Ecological Research 33: 19-34
3. Mirtl M., Borer E.T., Djukic I., Forsius M., Haubold H., Hugo W., Jourdan J., Lindenmayer D., McDowell W.H., Muraoka H., Orenstein D.E., Pauw J.C., Peterseil J., Shibata H., Wohner C., Yu X., Haase P. (2018) Genesis, goals and achievements of Long-Term Ecological Research at the global scale: A critical review of ILTER and future directions. Science of the Total Environment 626: 1439-1462
4. 沈昱東・涌井幸子・竹原優子・星野安治・内海泰弘・鎌田直人・野堀嘉裕・市栄智明・村岡裕由・斎藤琢・平野優・安江恒（2018）日本各地に生育するブナの肥大成長に影響する気候要素．木材学会誌 64: 171-186

Publication in 2017

AsiaFlux TKY (冷温帯落葉広葉樹林)

1. Nagai S., Nasahara K.N., Yoshitake S., Saitoh T.M. (2017) Seasonality of leaf litter and leaf area index data for various tree species in a cool-temperate deciduous broad-leaved forest, Japan, 2005-2014, Ecological Research, 32, 297. DOI 10.1007/s11284-017-1452-5
2. Nagai S, Nasahara KN (2017) Seasonal leaf phenology data for 12 tree species in a cool-temperate deciduous broadleaved forest in Japan from 2005 to 2014. Ecological Research, 32:107-107.
3. Chen S., Yoshitake S., Iimura Y., Asai C., Ohtsuka T. (2017) Dissolved organic carbon (DOC) input to the soil: DOC fluxes and their partitions during the growing season in a cool-temperate broad-leaved deciduous forest, central Japan. Ecological Research 32 (5): 713?724. (DOI: 10.1007/s11284-017-1488-6)
4. Noh NJ., Kuribayashi M., Saitoh TM. and Muraoka H. (2017) Different responses of soil, heterotrophic and autotrophic respirations to a 4-year soil warming experiment in a cool-temperate deciduous broadleaved forest in central Japan. Agricultural and Forest Meteorology 247: 560-570

AsiaFlux TKC (冷温帯常緑針葉樹林）

広域/複数，大八賀川流域, その他のサイト

1. Ichii K., Ueyama M., Kondo M., Saigusa N., Kim J., Alberto M.C., Ardoe J., Euskirchen E.S., Kang M., Hirano T., Joiner J., Kobayashi H., Marchesini L.B., Merbold L., Miyata A., Saitoh T.M., Takagi K., Varlagin A., Bret-Harte M.S., Kitamura K., Kosugi Y., Kotani A., Kumar K., Li S.?G., Machimura T., Matsuura Y., Mizoguchi Y., Ohta T., Mukherjee S., Yanagi Y., Yasuda Y., Zhang Y. and Zhao F. (2017) New data-driven estimation of terrestrial CO2 fluxes in Asia using a standardized database of eddy covariance measurements, remote sensing data, and support vector regression, Journal of Geophysical Research Biogeosciences, 122, 767-795, DOI 10.1002/2016JG003640
2. Kuribayashi M., Noh N.-J., Saitoh T.M., Ito A., Wakazuki Y., Muraoka H., (2017) Current and future carbon budget at Takayama site, Japan, evaluated by a regional climate model and a process-based terrestrial ecosystem model, International Journal of Biometeorology, DOI:10.1007/s00484-016-1278-9
3. Kondo M., Saitoh T.M., Sato H., Ichii K. (2017) Comprehensive synthesis of spatial variability in carbon flux across monsoon Asian forests, Agricultural and Forest Meteorology, 232, 623-634,　DOI:10.1016/j.agrformet.2016.10.020
4. Musavi T., Migliavacca M., Reichstein M., Kattge J., Wirth C., Black A., Janssens I.A., Knohl A., Loustau D., Roupsard O., Varlagin A., Rambal S., Cescatti A., Gianelle D., Kondo H., Tamrakar R., Mahecha M.D. (2017) Stand age and species richness dampen interannual variation of ecosystem-level photosynthetic capacity, Nature ecology & evolution, 1, e0048, doi:10.1038/s41559-016-0048
5. Awaya Y., Takahashi T. (2017) Evaluating the differences in modeling biophysical attributes between deciduous broadleaved and evergreen conifer forests using low-density small-footprint LiDAR data.??? Remote Sensing, (9)572, DOI:10.3390/rs9060572.

Publication in 2016

AsiaFlux TKY (冷温帯落葉広葉樹林)

1. Noh NJ., Kuribayashi M., Saitoh T.M., Nakaji T., Nakamura T., Hiura T. and Muraoka H. (2016) Responses of soil, heterotrophic, and autotrophic respiration to experimental open-field soil warming in a cool-temperate deciduous forest. Ecosystems 19:504-520, DOI: 10.1007/210021-015-9948-8

AsiaFlux TKC (冷温帯常緑針葉樹林）

広域/複数，大八賀川流域, その他のサイト

1. Nagai S., Nasahara K.N., Inoue T., Saitoh T.M., Suzuki R. (2016) Review: advances in in situ and satellite phenological observations in Japan. International Journal of Biometeorology, 60, 615-627, DOI:10.1007/s00484-015-1053-3
2. Brown T, Hultine K, Steltzer H, Denny E, Denslow M, Granados J, Henderson S, Moore D, Nagai S, SanClements M, Sanchez-Azofeifa GA, Sonnentag O, Tazic D, Richardson A. (2016) Using phenocams to monitor our changing Earth: towards a global phenocam network. Frontiers in Ecology and the Environment, 14, 84-93.
3. Suzuki M., Suminokura N., Tanami K., Yoshitake S., Masuda S., Tomotsune M., Koizumi H. (2016) Effects of long-term experimental warming on plants and soil microbes in a cool temperate semi-natural grassland in Japan. Ecological Research 31: 957-962.
4. Tang J., Korner C., Muraoka H., Piao S., Shen M., Thackeray S and Yang X. (2016) Emerging opportunities and challenges in phenology : A review. Ecosphere 7, e01436. 10.1002/ecs2.1436

Publication in 2015

AsiaFlux TKY (冷温帯落葉広葉樹林)

1. Nagai S, Inoue T, Ohtsuka T, Yoshitake S, Nasahara KN, Saitoh TM. (2015) Uncertainties involved in leaf fall phenology detected by digital camera. Ecological Informatics 30, 124-132.(PDFあり)
2. Ito A., Saitoh T.M., Sasai T. (2015) Synergies between observational and modeling studies at the Takayama site: toward a better understanding of terrestrial ecosystem processes, Ecological Research, 30, 201-210, DOI 10.1007/s11284-014-1205-7(PDFあり)
3. Ishidoya S., Murayama S., Kondo H., Saigusa N., Kishimoto-Mo A.W., Yamamoto S. (2015) Observation of O2:CO2 exchange ratio for net turbulent fluxes and its application to forest carbon cycles, Ecological Research, 30, 225-234, DOI 10.1007/s11284-014-1241-3(PDFあり)
4. Noda H.M., Muraoka H., Nasahara K.N., Saigusa N., Murayama S., Koizumi H. (2015) Phenology of leaf morphological, photosynthetic, and nitrogen use characteristics of canopy trees in a cool-temperate deciduous broadleaf forest at Takayama, central Japan, 30, 247-266, DOI 10.1007/s11284-014-1222-6(PDFあり)
5. Saitoh TM., Nagai S., Yoshino J., Kondo H., Tamagawa I., Muraoka H. (2015) Effects of canopy phenology on deciduous overstory and evergreen understory carbon budgets in a cool-temperate forest ecosystem under ongoing climate change. Ecological Research, 30, 267-277. DOI 10.1007/s11284-014-1229-z (PDFあり)
6. Kishimoto-Mo A.W., Yonemura S., Uchida M., Kondo M., Murayama S., Koizumi H. (2015) Contribution of soil moisture to seasonal and annual variations of soil CO2 efflux in a humid cool-temperate oak-birch forest in central Japan, 30, 311-325. DOI 10.1007/s11284-015-1254-6(PDFあり)
7. Kondo M., Ichii K., Ueyama M. (2015) Impact of anomalous climates on carbon allocation to biomass production of leaves, woody components, and fine roots in a cool-temperate deciduous forest, Agricultural and Forest Meteorology 201, 38-50.(PDFあり)
8. Muraoka H., Saitoh T.M. and Nagai S. (2015) [Editorial] Long-term and interdisciplinary research on forest ecosystem functions: challenges at Takayama site since 1993. Ecological Research 30: 197-200, DOI 10.1007/s11284-015-1251-9
9. Sakurai G., Yonemura S., Kishimoto-Mo A.W., Murayama S., Ohtsuka T., Yokozawa M. (2015) Inversely estimating the vertical profile of the soil CO2 production rate in a deciduous broadleaf forest using a particle filtering method. PLoS ONE 10(3): e0119001, https://journals.plos.org/plosone/article?id=10.1371%2Fjournal.pone.0119001

AsiaFlux TKC (冷温帯常緑針葉樹林）

広域/複数，大八賀川流域, その他のサイト

1. Inoue T., Nagai S., Kobayashi H., Koizumi H. (2015) Utilization of ground-based digital photography for the evaluation of seasonal changes in the aboveground green biomass and foliage phenology in a grassland ecosystem. Ecological Informatics, 25:1-9. doi: 10.1016/j.ecoinf.2014.09.013(PDFあり)
2. Kotsuki S., Takenaka H., Tanaka K., Higuchi A., Miyoshi T. (2015) 1-km-resolution land surface analysis over Japan: Impact of satellite-derived solar radiation. Hydrological Research Letters, 9(1), 14-19. (PDFあり)
3. Muraoka H., Saitoh T.M., Nagai S. (2015) Long-term and interdisciplinary research on forest ecosystem functions: challenges at Takayama site since 1993, 30, 197-200, DOI 10.1007/s11284-015-1251-9 (PDFあり)
4. Nasahara KN., Nagai S. (2015) Development of an in-situ observation network for terrestrial ecological remote sensing ― the Phenological Eyes Network (PEN). Ecological Research 30(2):211-223.(PDFあり)
5. Yoshitake S., Tabei N., Mizuno Y., Yoshida H., Sekine Y., Tatsumura M., Koizumi H. (2015) Soil microbial response to experimental warming in cool temperate semi-natural grassland in Japan. Ecological Research, 30, 235-245, DOI 10.1007/s11284-014-1209-3 (PDFあり)

Publication in 2014

AsiaFlux TKY (冷温帯落葉広葉樹林)

1. Ohtsuka T., Shizu Y., Hirota M., Yashiro Y., Shugang J., Iimura Y., Koizumi H. (2014) Role of coarse woody debris in the carbon cycle of Takayama forest, central Japan, 29, 91-101, DOI 10.1007/s11284-013-1102-5. (PDFあり)
2. Inoue T., Nagai S., Saitoh T.M., Muraoka H., Nasahara K.N, Koizumi H. (2014) Detection of the different characteristics of year-to-year variation in foliage phenology among deciduous broad-leaved tree species by using daily continuous canopy surface images. Ecological Informatics, 22:58-68. doi:10.1016/j.ecoinf.2014.05.009(PDFあり)
3. Nagai S., Yoshitake S., Inoue T., Suzuki R., Muraoka H., Nasahara K. Saitoh T.M. (2014) Year-to-year blooming phenology observation by using time-lapse digital camera images. Journal of Agricultural Meteorology, 70 (3), 163-170. DOI:10.2480/agrmet.D-13-00021.(PDFあり)
4. Nagai S., Inoue T., Ohtsuka T., Kobayashi H., Kurumado K., Muraoka H., Nasahara KN. (2014) Relationship between spatio-temporal characteristics of leaf-fall phenology and seasonal variations in near surface- and satellite-observed vegetation indices in a cool-temperate deciduous broad-leaved forest in Japan. International Journal of Remote Sensing, 35(10): 3520-3536.

AsiaFlux TKC (冷温帯常緑針葉樹林）

1. 斎藤琢（2014）群落スケールの生態系呼吸　－炭素循環および熱循環の視点から－．光合成研究，24(1), 34-38.(PDFあり)

広域/複数，大八賀川流域, その他のサイト

1. Fang JY., Guo Z., Hu H., Kato T., Muraoka H. and Son Y. (2014) Forest biomass carbon sinks in East Asia, with special reference to the relative contributions of forest expansion and forest growth. Global Change Biology, doi:10.1111/gcb.12512(PDFあり)
2. 斎藤琢・永井信・村岡裕由（2014）陸域生態系の炭素収支の現状診断と将来予測－リモートセンシングの利用－．日本生態学会誌, 64, 243-252.

Publication in 2013

AsiaFlux TKY (冷温帯落葉広葉樹林)

1. Nagai S., Saitoh T.M., Kurumado K., Tamagawa I., Kobayashi H, Inoue T., Suzuki R., Gamo M., Muraoka H., Nasahara K.N. (2013) Detection of bio-meteorological year-to-year variation by using digital canopy surface images of a deciduous broad-leaved forest. SOLA, 9, 106-110 , DOI:10.2151/sola.2013-024.(PDFあり)
2. Muraoka H., Noda H.M., Nagai N., Motohka T., Saitoh T.M., Nasahara K.N. and Saigusa N. (2013) Spectral vegetation indices as the indicator of canopy photosynthetic productivity in a deciduous broadleaf forest. Journal of Plant Ecology, 6 (5), 393-407. doi: 10.1093/jpe/rts037.(PDFあり)
3. Yonemura S., Yokozawa M., Sakurai G., Kishimoto-Mo A.W., Lee N., Murayama S., Ishijima K., Shirato Y. and Koizumi H. (2013) Vertical soil-air CO2 dynamics at the Takayama deciduous broadleaved forest AsiaFlux site. Journal of Forest Research, 18: 49-59, https://doi.org/10.1007/s10310-012-0385-7
4. Ishidoya, S., Murayama, S., Takamura, C., Kondo, H., Saigusa, N., Goto, S., Morimoto, S., Aoki, N., Aoki, S. and Nakazawa, T. (2013) O2:CO2 exchange ratios observed in a cool temperate deciduous forest ecosystem of central Japan, Tellus B, 65, 21120, http://dx.doi.org/10.3402/tellusb.v65i0.21120.
5. 山本晋・村山昌平・近藤裕昭・三枝信子 (2013) 森林生態系炭素循環の解明を目指して -20年間の高山（TAKAYAMA）観測とAsiaFluxへの展開-, 天気, 60, 359-370.

AsiaFlux TKC (冷温帯常緑針葉樹林）

1. Saitoh T.M., Tamagawa I., Muraoka H., and Kondo H. (2013) An analysis of summer evapotranspiration based on multi-year observations including extreme climatic conditions over a cool-temperate evergreen coniferous forest, Takayama, Japan. Hydrological Processes, 27, 3341-3349, DOI: 10.1002/hyp.9834(PDFあり)

広域/複数，大八賀川流域, その他のサイト

1. Kuribayashi M., Noh N.J., Saitoh T.M., Tamagawa I., Wakazuki Y., Muraoka H. (2013) Comparison of Snow Water Equivalent Estimated 1 in Central Japan by High-Resolution Simulations Using Different Land-Surface Models. SOLA, 9, 148-152 , DOI:10.2151/sola.2013-033.(PDFあり)
2. Nagai S., Nakai T., Saitoh T.M., Busey R.C., Kobayashi H., Suzuki R., Muraoka H., Kim Y. (2013) Seasonal changes in camera-based indices from an open canopy black spruce forest in Alaska, and comparison with indices from a closed canopy evergreen coniferous forest in Japan. Polar Science, 7, 125-135, DOI: 10.1016/j.polar.2012.12.001
3. Nagai S., Saitoh T.M., Noh N.-J., Yoon T.-K., Kobayashi H, Suzuki R., Nasahara K.N., Son Y., Muraoka H. (2013) Utility of information in photographs taken upwards from the floor of closed-canopy deciduous broadleaved and closed-canopy evergreen coniferous forests for continuous observation of canopy phenology. Ecological Informatics, 18, 10-19, DOI: 10.1016/j.ecoinf.2013.05.005.(PDFあり)
4. Ichii K., Kondo M., Lee Y.-H., Wang S.-Q., Kim J., Ueyama M., Lim H.-J., Shi H., Suzuki T., Ito A., Ju W., Huang M., Sasai T., Asanuma J., Han S., Hirano T., Hirata R., Kato T., Kwon H., Li S.-G., Li Y.-N., Maeda T., Miyata A., Matsuura Y., Murayama S., Nakai Y., Ohta T., Saitoh T.M., Saigusa N., Takagi K., Tang Y.-H., Wang H.-M., Yu G.-R., Zhang Y.-P., Zhao F.-H. (2013) Site-level model-data synthesis of terrestrial carbon fluxes in the CarboEastAsia eddy-covariance observation network: Toward future modeling efforts. Journal of Forest Research, 18, 13-20, DOI 10.1007/s10310-012-0367-9.(PDFあり)
5. Saigusa N., Li S.-G., Kwon H., Takagi K, Zhang L.-M, Ide R., Ueyama M., Asanuma J. Choi Y.-J., Chun J.H., Han S.-J., Hirano T., Hirata R., Kang M., Kato T., Kim J., Li Y.-N., Maeda T., Miyata A., Mizoguchi Y., Murayama S., Nakai Y., Ohta T., Saitoh T.M., Wang H.-M., Yu G.-R., Zhang Y.-P., Zhao F.-H. (2013) Dataset of CarboEastAsia and the uncertainties in the CO2 budget evaluation caused by different data-processing. Journal of Forest Research, 18, 41-48, DOI 10.1007/s10310-012-0378-6.(PDFあり)
6. Noda H.M., Motohka T., Murakami K., Muraoka H. and Nasahar K.N. (2013) Accurate measurement of optical properties of narrow leaves and conifer needles with a typical integrating sphere and spectroradiometer. Plant, Cell and Environment doi: 10.1111/pce.12100(PDFあり)
7. Chung H., Muraoka H., Nakamura M., Han S, Muller O. and Son Y. (2013) Experimental warming studies on tree species and forest ecosystems: A literature review. Journal of Plant Research 1246: 447-460(PDFあり)
8. Noda H.M., Motohka T., Murakami K., Muraoka H. and Nasahara K.N. (2013) Reflectance and transmittance spectra of leaves and shoots of 22 vascular plant species and reflectance spectra of trunks and branches of 12 tree species in Japan. Ecological Research, DOI 10.1007/s11284-013-1096-z(PDFあり)
9. 上野健一・磯野純平・今泉文寿・井波明宏・金井隆治・鈴木啓助・小林元・玉川一郎・斎藤琢・近藤裕昭（2013）大学間連携事業を通じた中部山岳域の気象データアーカイブ．地学雑誌, 122(4), 638-650, DOI:10.5026/jgeography.122.638(PDFあり)
10. He, M. Zhou, Y., Ju, W., Chen, J., Zhang, L., Wang, S., Saigusa, N., Hirata, R., Murayama, S. and Liu, Y. (2013) Evaluation and improvement of MODIS gross primary productivity in typical forest ecosystems of East Asia based on eddy covariance measurements, Journal of Forest Research, 18, 31-40.

Publication in 2012

AsiaFlux TKY (冷温帯落葉広葉樹林)

1. 大塚俊之 (2012) 森林生態系の炭素循環：Takayama Forest での10年間で分かったことと、分からなかったこと. 日本生態学会誌 62: 31-44.(PDFあり)
2. Saitoh T.M., Nagai S., Noda H.M., Muraoka H. and Nasahara K.N. (2012) Examination of the extinction coefficient in the Beer-Lambert law for an accurate estimation of the forest canopy leaf area index. Forest Science and Technology, 8(2), 67-76. (PDFあり)
3. Yashiro Y, Shizu Y, Adachi T, Ohtsuka T, Lee N-Y, Iimura Y, Koizumi H (2012) The effect of dense dwarf bamboo (Sasa senanensis) understory on soil respiration before and after clearcutting of cool temperate deciduous broad-leaved forest. Ecological Research, 27, 577-586.(PDFあり)
4. Ballav, S., Patra, P. K., Takigawa, M., Ghosh, S., De, U. K., Makshyutov, S., Murayama, S., Mukai, H. and Hashimoto, S. (2012) Simulation of CO2 Concentration over East Asia Using the Regional Transport Model WRF-CO2，Journal of the Meteorological Society of Japan，90，959-976.

AsiaFlux TKC (冷温帯常緑針葉樹林）

1. Nagai S., Saitoh T.M., Kobayashi H., Ishihara M., Suzuki R., Motohka T., Nasahara K.N. and Muraoka H. (2012) In situ examination of the relationship between various vegetation indices and canopy phenology in an evergreen coniferous forest, Japan. International Journal of Remote Sensing, 33, 6202-6214.(PDFあり)

広域/複数，大八賀川流域, その他のサイト

1. 志津庸子・曽出信宏・八代裕一郎・小泉博・大塚俊之 (2012)落葉広葉樹林皆伐後の先駆性林分における現存量及び純一次生産量の推定　日本生態学会誌 62: 19-29(PDFあり)
2. 志津庸子・曽出信宏・八代裕一郎・小泉博・大塚俊之 (2012) 落葉広葉樹林皆伐後の初期遷移における林分構造の変化. 植生学会誌, 29, 15-26(PDFあり)
3. Inoue T. and Koizumi H. (2012) Effects of environmental factors upon variation in soil respiration of a Zoysia japonica grassland, central Japan. Ecological Research, DOI: 10.1007/s11284-011-0918-0.(PDFあり)
4. Inoue T., Nagai S.,Inoue S., Ozakia M., Sakai S., Muraoka H. and Koizumi H. (2012) Seasonal variability of soil respiration in multiple ecosystems under the same physical--geographical environmental conditions in central Japan. Forest Science and Technology, 8(2), 52-60.(PDFあり)
5. Nagai S., Nakai T., Saitoh T.M., Busey R.C., Kobayashi H., Suzuki R., Muraoka H., Kim Y. (2012) Seasonal changes in camera-based indices from an open canopy black spruce forest in Alaska, and comparison with indices from a closed canopy evergreen coniferous forest in Japan. Polar Science, DOI: 10.1016/j.polar.2012.12.001.(PDFあり)
6. Saitoh T.M., Nagai S, Saigusa N, Kobayashi H., Suzuki R., Nasahara K.N., and Muraoka H. (2012) Assessing the use of camera-based indices for characterizing canopy phenology in relation to gross primary production in a deciduous broad-leaved and an evergreen coniferous forest in Japan. Ecological Informatics, 11, 45-54, doi: 10.1016/j.ecoinf.2012.05.001.(PDFあり)
7. Saitoh T.M., Nagai S., Yoshino J., Muraoka H., Saigusa N., and Tamagawa I. (accepted) Functional consequences of differences in canopy phenology for the carbon budgets of two cool-temperate forest types: simulations using the NCAR/LSM model and validation using tower flux and biometric data. Eurasian Journal of Forest Research. 15(1), 19-30. (PDFあり)

Publication in 2011

AsiaFlux TKY (冷温帯落葉広葉樹林)

1. Nagai S, Saitoh T.M., Suzuki R., Nasahara K.N., Lee W.-K., Son T., and Muraoka H. (2011) The necessity and availability of noise-free daily satellite-observed NDVI during rapid phenological changes in terrestrial ecosystems in East Asia. Forest Science and Technology, 7(4), 174-183.(PDFあり)
2. Nagai, S., Maeda, T., Gamo, M., Muraoka, H., Suzuki, R., Nasahara, K.N., 2011a. Using digital camera images to detect canopy condition of deciduous broad-leaved trees. Plant Ecol. Diversity 4, 78-88.(PDFあり)
3. Kamakura M., Kosugi Y., Muramatsu K. and Muraoka H. (2011) Simulations and observations of patchy stomatal behavior in leaves of Quercus crispula, a cool-temperate deciduous broad-leaved tree species. Journal of Plant Research,125: 339-349, DOI 10.1007/s10265-011-0460-8.(PDFあり)

AsiaFlux TKC (冷温帯常緑針葉樹林）

1. Saitoh T.M., Tamagawa, I., Muraoka H., and Koizumi H. (2011) Energy balance closure over a cool temperate forest in steeply sloping topography during snowfall and snow-free periods, Journal of Agricultural Meteorology, 67(3), 107-116.(PDFあり)
2. 斎藤琢・玉川一郎・村岡裕由（2011）渦相関法を用いた炭素収支評価におけるCO2貯留変化量の影響 日本森林学会誌, 93,105-112.(PDFあり)

広域，大八賀川流域, その他のサイト

1. Sasai T., Saigusa N., Nasahara K.M., Ito A., Hashimoto H., Nemani R., Hirata H., Ichii K., Takagi T., Saitoh T.M., Ohta T., Murakami K., Oikawa T., Yamagichi Y. (2011) Satellite-driven estimation of terrestrial carbon flux over Far East Asia with 1-km grid resolution, Remote Sensing of Environment 115, 1758-1771, doi:10.1016/j.rse.2011.03.007.(PDFあり)

Publication in 2010

AsiaFlux TKY (冷温帯落葉広葉樹林)

1. Crafting Geoinformation (GEO home page) download from Crafting Geoinformation, pp56
2. Piao S., Ciais P., Lomas M., Beer C., Liu H., Fang J., Friedlingstein P., Huang Y., Muraoka H., Son Y. and Woodward I. (2010) Contribution of climate change and rising CO2 to terrestrial carbon balance in East Asia: A multi-model analysis. Global and Planetary Change, (in press), doi: 10.1016/j.gloplacha.2010.10.014(PDFあり)
3. Kondo M., Uchida M., Ohstuka T., Shibata, Y. (2010) Radiocarbon-Based Residence Time of Soil Organic Carbon in a Temperate Forest: Case Study for The Density Fractionation for Volcanic Ash Soil,Nuclear Instruments and Methods in PhysicsResearch Section B: Beam Interactions with Materials and Atoms Volume 268, Issues 7-8, April 2010, Pages 1073-1076.
4. Inatomi M., Ito A., Ishijima K. & Murayama S. (2010) Greenhouse gas budget of a cool-temperate deciduous broad-leaved forest in Japan estimated using a process-based model. Ecosystems 13: 472-483.(PDFあり)
5. Ito A. (2010) Evaluation of defoliation impacts of tropical cyclones on the forest carbon budget using flux data and a process-based model. Journal of Geophysical Research 115:G04013 doi:10.1029/2010JG001314.(PDFあり)
6. Ito A. (2010) Changing ecophysiological processes and carbon budget in East Asian ecosystems under near-future changes in climate: implications for long-term monitoring from a process-based model. Journal of Plant Research, 123, 577-588(PDFあり)
7. Motohka T., Nasahara K.N., Oguma H., Tsuchida S. (2010) Applicability of Green-Red Vegetation Index for Remote Sensing of Vegetation Phenology. Remote Sensing, 2(10), 2369-2387.(PDFあり)
8. Kume A, Nasahara K.N., Nagai S., and Muraoka H. (2010) The ratio of transmitted near-infrared radiation to photosynthetically active radiation (PAR) increases in proportion to the adsorbed PAR in the canopy, Journal of Plant Research, DOI 10.1007/s10265-010-0346-1.(PDFあり)
9. Murayama, S., C. Takamura, S. Yamamoto, N. Saigusa, S. Morimoto, H. Kondo,T. Nakazawa, S. Aoki, T. Usami, and M. Kondo (2010), Seasonal variations of atmospheric CO2, δ13C, and δ18O at a cool temperate deciduous forest in Japan: Influence of Asian monsoon, J. Geophys. Res., 115, D17304, doi:10.1029/2009JD013626.(PDFあり)
10. Ichii K, Suzuki T, Kato T, Ito A, Hajima T, Ueyama M, Sasai T, Hirata R, Saigusa N, Ohtani Y, Takagi K, (2010) Multi-model analysis of terrestrial carbon cycles in Japan: Limitations and implications of model calibration using eddy flux observations. Biogeosciences 7, 2061-2081. (PDFあり)
11. Jang K, Kang S, Kim J, Lee C.B, Kim T, Kim J, Hirata R, Nobuko Saigusa N. (2010) Mapping evapotranspiration using MODIS and MM5 Four-Dimensional Data Assimilation, Remote Sensing of Environment 114, 657-673. (PDFあり)
12. Saigusa N., Ichii K., Murakami H., Hirata R., Asanuma J., Den H., Han S.J., Ide R., Li S.G., Ohta T., Sasai T., Wang S.Q., and Yu G.R. (2010) Impact of meteorological anomalies in the 2003 summer on Gross Primary Productivity in East Asia, Biogeosciences, 7, 641-655, 2010. (PDFあり)
13. Muraoka H., Saigusa N., Nasahara K.N., Noda H., Yoshino J., Saitoh T.M., Nagai S., Murayama S. and Koizumi H. (2010) Effects of seasonal and interannual variation in leaf photosynthesis and canopy leaf area index on gross primary production in a cool-temperate deciduous broadleaf forest in Takayama, Japan. Journal of Plant Research, 123, 563-576, DOI: 10.1007/s10265-009-0270-4 (PDFあり)
14. Nagai S., Nasahara K.N., Muraoka H., Akiyama T.and Tsuchida S. (2010) Field experiments to test the use of the normalized difference vegetation index for phenology detection. Agricultural and Forest Meteorology 150, 152-160 (PDFあり)
15. Nagai S., Saigusa N., Muraoka H. and Nasahara K.N. (2010) What makes the satellite-based EVI-GPP relationship unclear in a deciduous broad-leaved forest? Ecological Research, 25: 359-365, DOI 10.1007/s11284-009-0663-9 (PDFあり)

AsiaFlux TKC (冷温帯常緑針葉樹林）

1. 斎藤琢・玉川一郎・村岡裕由・小泉博（2010）森林における光合成・呼吸活動に伴う貯熱量，農業気象, 66(4), p.289-298.
2. Yashiro Y., Lee N.-Y., Ohtsuka T., Shizu Y., Saitoh T.M., Koizumi H. (2010) Biometric based estimation of net ecosystem production (NEP) in a mature Japanese cedar (Cryptomeria japonica) plantation beneath a flux tower. Journal of Plant Research 123, 463-472, doi:10.1007/s10265-010-0323-8 (PDFあり)
3. Saitoh T.M., Tamagawa, I., Muraoka H., Lee N-Y., Yashiro Y., and Koizumi H. (2010) Carbon dioxide exchange in a cool-temperate evergreen coniferous forest over complex topography in Japan during two years with contrasting climates. Journal of Plant Research 123, 473-483, DOI 10.1007/s10265-009-0308-7 (PDFあり)

大八賀川流域, その他のサイト

1. Dhital D., Muraoka H., Yashiro Y., Shizu Y. and Koizumi H. (2010) Measurement of net ecosystem production and ecosystem respiration in a Zoysia japonica grassland, central Japan, by the chamber method. Ecological Research 25: 483-493
2. Dhital D., Yashiro Y., Ohtsuka T., Noda H., Shizu Y. and Koizumi H. (2010) Carbon dynamics and budget in a Zoysia japonica grassland,　central Japan. Journal of Plant Research 123, 519-530. (PDFあり)
3. Ohtsuka T., Shizu Y., Nishiwaki A., Yashiro Y. and Koizumi H. (2010) Carbon cycling and net ecosystem production in an early stage of secondary succession in an abandoned coppice forest. Journal of Plant Research, 123, 393-401 DOI: 10.1007/s10265-009-0274-0 (PDFあり)

Publication in 2009

AsiaFlux TKY (冷温帯落葉広葉樹林)

1. Sakai T., Muraoka H., Akiyama T., Shibayama M. and Awaya Y. (2009) Quantitative analysis of canopy photosynthesis influenced by light simulation models. Editors: Jason D. Creighton and Paul J. Roney. Forest Canopies: Forest Production, Ecosystem Health, and Climate Conditions, Nova Science Publishers, NY, USA, pp.51-70
2. Ohtsuka, T., Saigusa, N. and Koizumi, H. (2009) On linking multiyear biometric measurements of tree growth with eddy covariance-based net ecosystem production. Global Change Biology 15: 1015-1024, doi: 10.1111/j.1365-2486.2008.01800.x (PDFあり)
3. Muraoka H. and Koizumi H. (2009) "Satellite Ecology" for linking ecology, remote sensing and micrometeorology from plot to regional scales for ecosystem structure and function study. Journal of Plant Research 122:3-20 (PDFあり)
4. Seung-Taek Jeong, Keun-Chang Jang, Sin-Kyu Kang, Joon Kim, Hiroaki Kondo, Minoru Gamo, Jun Asanuma, Nobuko Saigusa, Shaoqiang Wang, Shijie Han (2009) Evaluation of MODIS-derived evapotranspiration at the flux tower sites in East Asia, Korean Journal of Agricultural and Forest Meteorology, 11, 174-184. (in Korean)

AsiaFlux TKC (冷温帯常緑針葉樹林）

1. Lee N-Y, Koizumi H (2009) Estimation of the number of sampling points required for the determination of soil CO2 efflux in two types of plantation in a temperate region. J Ecol Field Biol 32:67-73 (PDFあり)
2. Senda, M., Kageyama, K., Suga, H. and L?vesque, A. (2009) Two new species of Pythium, P. senticosum and P. takayamanum, isolated from cool-temperate forest soil in Japan. Mycologia 101:439-448. （PDFあり）

大八賀川流域, その他のサイト

1. Wahid, D. A., Akiyama, T. and Ishihara, M. (2009) Mapping LAI of paddy using ground observation data and classified seasonal ASTER/VNIR data at Takayama, Japan. Asian Journal of Geoinformatics 9(2)
2. Akiyama, T. and Ishihara, M. (2009) Satellite Ecology, an attempt to link remote sensing with ecology for river basin studies. Journal of Integrated Field Science, Vol.6, (accepted)

Publication in 2008

AsiaFlux TKY (冷温帯落葉広葉樹林)

1. Uchida M., M. Kondo, Y. Nojiri, H. Mukai, S. Murayama, T. Machida, H. Koizumi, N. Ogura and Y. Ambe (2008) Ecosystem-scale carbon isotope ratio of respired CO2 in cool-temperate deciduous forests under Asian Monsoon climate. Journal of Geophysical Research -Biogeosciences, 113, G02015, doi:10.1029/2007JG000574.(PDFあり）
2. Saigusa N., Yamamoto S., Hirata R., Ohtani Y., Ide R., Asanuma J., Gamo M., Hirano T., Kondo H., Kosugi Y., Li SG., Nakai Y., Takagi K., Tani M. and Wang H. (2008) Temporal and spatial variations in the seasonal patterns of CO2 flux in boreal, temperate, and tropical forests in East Asia. Agricultural and Forest Meteorology 148: 70-713 (PDFあり）
3. Hirata R., Saigusa N., Yamamoto S., Ohtani Y., Ide R., Asanuma J., Gamo M., Hirano T., KOndo H., Kosugi Y., Li SG, Nakai Y., Takagi K., Tani M. and Wang H. (2008) Spatial distribution of carbon balance in forest ecosystems across East Asia. Agricultural and Forest Meteorology 148: 761-775 (PDFあり)
4. 永井信, 奈佐原（西田）顕郎, 石原光則, 村岡裕由 (2008): 衛星観測で得られた植生指数に対する生理生態学的な考察, システム農学(J. JASS), 24 (3), pp. 183-190.(PDFあり)
5. Nasahara K.N., Muraoka H., Nagai S. and Mikami H. (2008) Vertical integration of leaf area index in a Japanese deciduous broad-leaved forest. Agricultural and Forest Meteorology 148: 1136-1146 （PDFあり）
6. Yamaji T., Sakai T., Endo T. Baruah P.J., Akiyama T., Saigusa N., Nakai Y., Kitamura K., Ishizuka M. and Yasuoka Y., 2008: Scaling-up technique for net ecosystem productivity of deciduous broadleaved forests in Japan using MODIS data, Ecological Research, 23(4), 765-775 (PDFあり)
7. 吉野純・村岡裕由・永井信・石原光則・斎藤琢・児島利治・玉川一郎・安田孝志，流域圏を支える森林環境保全のための森林健康診断手法，環境システム講演論文集，Vol. 36，p. 277-286，2008

AsiaFlux TKC (冷温帯常緑針葉樹林）

1. Lee M-S, Lee J-S, Koizumi H (2008) Temporal variation in CO2 efflux from soil and snow surfaces in a Japanese cedar (Cryptomeria japonica) plantation, central Japan. Ecol Res 23:777-785 (PDFあり)

大八賀川流域, その他のサイト

1. 児島利治，秋山 侃，石原光則，Wahid D.A. (2008) 流域圏の構造と機能の空間分布. システム農学 Vol.24, No.2, pp.121-128.(PDFあり)
2. 石原光則，Lee Yan，Abdullah H.M.・後藤誠二朗,車戸憲二,秋山 侃(2008) 流域植生のフェノロジー解析. システム農学(J. JASS) Vol.24, No.2, pp.113-119.(PDFあり)
3. 玉川一郎, 吉野純, 加野利生, 安田孝志, 村岡裕由, 児島利治, 石原光則, 永井 信, 斎藤 琢, 李 美善 牧 雅康, 秋山 侃, 小泉 博（2008） 生態プロセスとリモートセンシングを結ぶモデルの開発. システム農学(J. JASS) Vol.24, No.2, pp.129-136.(PDFあり)
4. 秋山 侃, 児島利治, 石原光則 (2008) 21世紀COE研究「衛星生態学創生拠点」のめざすところ. システム農学(J. JASS) Vol.24, No.2, pp.137-142.(PDFあり)
5. 牧 雅康・後藤誠二朗・石原光則・西田顕郎・児島利治・秋山 侃 (2008) 衛星データと数値標高モデル（DEM）を用いた潜在的ササ分布図の作成. 日本リモートセンシング学会誌, Vol. 28, No. 1 pp. 28-35. （PDFあり）

Publication in 2007

AsiaFlux TKY (冷温帯落葉広葉樹林)

1. Sasai T., Okamoto K., Hiyama T., and Yamaguchi Y. (2007) Comparing terrestrial carbon fluxes from the scale of a flux tower to the global scale., Ecological Modelling, 208, 135?144 (PDFあり)
2. Ito A., Inatomo M., Mo W., Lee M-S., Koizumi H., Saigusa N., Murayama S. and Yamamoto S. (2007) Examination of model-estimated ecosystem respiration using flux measurements from a cool-temperate deciduous broad-leaved forest in central Japan, Tellus 59B, pp. 616-624 (PDFあり)
3. 村岡裕由・野田響・廣田湖美・小泉博（2007）光の獲得と利用の生理生態学－個体から生態系まで－。日本生態学会誌 57: 345-355 （PDFあり）
4. Owen K E, J Tenhunen, M Reichstein, Q Wang, E Falge, R Geyer, X Xiao, P Stoy, C Ammann, A Arain, M Aubinet, M Aurela, C Bernhofer, B H Chojnicki, A Granier, T Gruenwald, J Hadley, B Heinesch, D Hollinger, A Knohl, W Kutsch, A Lohila, T Meyers, E Moors, C Moureaux, K Pilegaard, N Saigusa, S Verma, T Vesala, and C Vogel (2007) Linking flux network measurements to continental scale simulations: ecosystem CO2 exchange capacity under non-water-stressed conditions, Global Change Biology, 13, 734-760(PDFあり)
5. Luyssaert S, I Inglima, M Jung, A D Richardson, M Reichstein, D Papale, S L Piao, E -D Schulze, L Wingate, G Matteucci, L Aragao, M Aubinet, C Beer, C Bernhofer, K G Black, D Bonal, J -M Bonnefond, J Chambers, P Ciais, B Cook, K J Davis, A J Dolman, B Gielen, M Goulden, J Grace, A Granier, A Grelle, T Griffis, T Grunwald, G Guidolotti, P J Hanson, R Harding, D Y Hollinger, L R Hutyra, P Kolari, B Kruijt, W Kutsch, F Lagergren, T Laurila, B E Law, G Le Maire, A Lindroth, D Loustau, Y Malhi, J Mateus, M Migliavacca, L Misson, L Montagnani, J Moncrieff, E Moors, J W Munger, E Nikinmaa, S V Ollinger, G Pita, C Rebmann, O Roupsard, N Saigusa, M J Sanz, G Seufert, C Sierra, M -L Smith, J Tang, R Valentini, T Vesala and I A Janssens (2007) The CO2-balance of boreal, temperate and tropical forests derived from a global database. Global Change Biology, 13, 2509-2537(PDFあり)

大八賀川流域, その他のサイト

1. Wahid, Din Ara and Akiyama, T. (2007) Possibilities of landcover/landuse classification improvement using ALOS AVNIR-2 at Daihachiga river basin site in Takayama. J. Japan Soc. Photogramm. Remote Sens， 46(5), 56-67．
2. 秋山侃・Wahid Din Ara (2007) 多時期ALOS/AVNIR-2画像による森林フェノロジーの解析. 小特集３ALOS. 写真測量とリモートセンシング, 46（4），16-19.
3. 児島利治・後藤誠二朗・秋山 侃 (2007) 高分解能衛星画像のオルソ補正におけるDSM、DEMの影響．日本リモートセンシング学会誌, 27(5), 456-464. （PDFあり）
4. 牧雅康，児島利治，秋山侃 (2007) 森林生態研究におけるASTER DEM利用の可能性，日本リモートセンシング学会誌, 27(1) 39-45. (PDFあり)

Publication in 2006

AsiaFlux TKY (冷温帯落葉広葉樹林)

1. Sakai, T., Akiyama, T., Saigusa, N., Yamamoto, S. and Yasuoka, Y. (2006) The contribution of gross primary production of understory dwarf bamboo, Sasa senanensis, in a cool-temperate deciduous broadleaved forest in central Japan. Forest Ecology and Management. 236(2-3), 259-267. (PDFあり)
2. Satomura T., Hashimoto Y. and Koizumi H. (2006) Effect of evergreen understory bamboo on the seasonal pattern of fine root demography in a cool-temperate deciduous forest in central Japan. Ecological Research 21: 741?753 (PDFあり)
3. Muraoka H and Koizumi H (2006) Leaf and shoot ecophysiological properties and their role in photosynthetic carbon gain of cool-temperate deciduous forest trees. In: Kawatata H and Awaya Y (eds.) Global climate change and response of carbon cycle in the Equatorial Pacific and Indian Oceans and adjacent landmasses. Elsevier Oceanography series vol. 73, Elsevier, pp.417-443
4. 三上寛了・西田顕郎・村岡裕由（2006）魚眼デジタルカメラ画像による林冠の開空域の自動識別と葉面積指数の推定。写真測量とリモートセンシング45:13-22
5. M-S. Lee, W. Mo and H. Koizumi (2006) Soil respiration of forest ecosystems in Japan and global implications, Ecological Research, Vol. 21, pp. 828-839 （PDFあり）
6. Ito, A., H. Muraoka, H. Koizumi, N. Saigusa, S. Murayama, and S. Yamamoto. 2006. Seasonal variation in leaf properties and ecosystem carbon budget in a cool-temperate deciduous broad-leaved forest: simulation analysis at Takayama site, Japan. Ecological Research 21:137-149. (PDFあり)

Special Issue: Agricultural and Forest Meteorology (vol 134, issues 1-4)

AsiaFlux TKY (冷温帯落葉広葉樹林)

1. Saigusa N. Yamamoto S. Murayama S. and Kondo H. Inter-annual variability of carbon budget components in an AsiaFlux forest site estimated by long-term flux measurements. Agricultural and Forest Meteorology 134: 4-16 (PDFあり)
2. Murayama S., Yamamoto S., Saigusa N., Kondo H. and Takamura C. Statistical analyses of inter-annual variations in the vertical profile of atmospheric CO2 mixing ratio and carbon budget in a cool-temperate deciduous forest in Japan. Agricultural and Forest Meteorology 134: 17-26. (PDFあり)
3. Ohtsuka T., Akiyama T., Hashimoto Y., Inatomi M., Sakai T., Jia S., Mo W., Tsuda S. and Koizumi H. Biometric based estimates of net primary production (NPP) in a cool-temperate deciduous forest stand beneath a flux tower. Agricultural and Forest Meteorology 134: 27-38. (PDFあり)
4. Muraoka H. and Koizumi H. Photosynthetic and structural characteristics of canopy and shrub trees in a cool-temperate deciduous broadleaved forest: implication to the ecosystem carbon gain. Agricultural and Forest Meteorology 134: 39-59. (PDFあり)
5. Sakai T. and Akiyama T. Quantifying the spatio-temporal variability of net primary production of the understory species, Sasa senanensis, using multipoint measuring techniques. Agricultural and Forest Meteorology 134: 60-69. (PDFあり)
6. Jia S. and Akiyama T. A precise, unified method for estimating carbon storage in cool-temperate deciduous forest ecosystems. Agricultural and Forest Meteorology 134: 70-80. （PDFあり）
7. Mo W., Lee M.-S., Uchida M., Inatomi M., Saigusa N., Mariko S. and Koizumi H. Seasonal and annual variations in soil respiration in a cool-temperate deciduous broad-leaved forest in Japan. Agricultural and Forest Meteorology 134: 81-94. (PDFあり)
8. Lee M-S, Nakane K., Nakatsubo T. and Koizumi H. The importance of root respiration in annual soil carbon fluxes in a cool-temperate deciduous forest. Agricultural and Forest Meteorology 134: 95-101. (PDFあり)
9. Uchida M., Mo W., Nakatsubo T., Tsuchiya Y., Hirokoshi T. and Koizumi H. Microbial activity and litter decomposition under snow cover in a cool-temperate broad-leaved deciduous forest. Agricultural and Forest Meteorology 134: 102-109. (PDFあり)
10. Kondo M., Muraoka H., Uchida M., Yazaki Y. and Koizumi H. Refixation of respired CO2 by understory vegetation in a cool-temperate deciduous forest in Japan. Agricultural and Forest Meteorology 134: 110-121. (PDFあり)
11. Ito A., Saigusa N., Murayama S. and Yamamoto S. Modeling of gross and net carbon dioxide exchange over a cool-temperate deciduous broad-leaved forest in Japan: Analysis of seasonal and interannual change. Agricultural and Forest Meteorology 134: 122-134. (PDFあり)
12. Alexandrov G. A., Yamagata Y., Saigusa N. and Oikawa T. Re-calibrating TsuBiMo with eddy-covariance measurements at Takayama. Agricultural and Forest Meteorology 134: 135-142 （PDFあり）
13. Higuchi K., Shashkov A., Chan D., Saigusa N., Murayama S., Yamamoto S., Kondo H., Chen J., Liu J. and Chen B. Simulations of seasonal and inter-annual variability of gross primary productivity at Takayama with BEPS ecosystem model. Agricultural and Forest Meteorology 134: 143-150. （PDFあり）

Publication in 2005

AsiaFlux TKY (冷温帯落葉広葉樹林)

1. Saigusa, N., S.Yamamoto, T. Ohtsuka, S.Murayama, H.Kondo, and H.Koizumi, 2005: Inter-annual variability of carbon budget components in a cool-temperate deciduous forest in Japan (Takayama, AsiaFlux), Phyton. 45(4), 81-88. (PDFあり)
2. Ohtani, Y., N. Saigusa, S. Yamamoto, Y. Mizoguchi, T. Watanabe, Y. Yasuda, and S. Murayama, 2005: Characteristics of CO2 fluxes in cool-temperate coniferous and deciduous broadleaf forests in Japan, Phyton, 45(4), 73-80.
3. Mo W., Nishimura N., Mariko S., Uchida M., Inatomi M & Koizumi H (2005) Interannual variation in CO2 efflux from soil and snow surfaces in a cool-temperate deciduous broad-leaved forest. Phyton 45: 99-107.
4. Ito A. Developing a new model to simulate net CO2 exchange at AsiaFlux sites. Phyton 45:55-59.
5. Shirato Y. and Yokozawa M. (2005) Acid hydrolysis to partition plant material into decomposable and resistant fractions for use in the Rothamsted carbon model. Soil Biology & Biochemistry 38: 812?816 （PDFあり）
6. Baldocchi D.D., Black T. A., Curtis P.S., Falge E., Fuentes J.D., Granier A., Gu L., Knohl A., Pilegaard K., Schmid H. P., Valentini R., Wilson K., Wofsy S., Xu L. and Yamamoto S. (2005) Predicting the onset of net carbon uptake by deciduous forests with soil temperature and climate data: a synthesis of FLUXNET data. International Journal of Biometeorology 49: 377-387. （PDFあり）
7. Mariko S. and Koizumi H. (2005) Methodology for studying carbon fluxes within an ecosystem-the present and future-. Japanese Journal of Ecology 55: 113-116. (in Japanese with English abstract) （PDFあり）
8. Ohtsuka T. (2005). Biometric based estimates of production and death rates in forest ecosystems beneath a flux tower. Japanese Journal of Ecology 55: 117-124. (in Japanese with English abstract)（PDFあり）
9. Mo W. and Sekikawa S. (2005) Quantitative evaluation of carbon emission from soils. Japanese Journal of Ecology 55: 125-140. (in Japanese with English abstract) （PDFあり）
10. Yokozawa M., Yonemura S. and Shirato Y. (2005) Modeling carbon dynamics in terrestrial ecosystem with special reference to its stock and flow within soil. Japanese Journal of Ecology 55: 167-171. (in Japanese with English abstract) （PDFあり）
11. Sakai T., Saigusa N., Yamamoto S. and Akiyama T. (2005) Microsite variation in light availability and photosynthesis in a cool-temperate deciduous broadleaf forest in central Japan. Ecological Research 20: 537-545. （PDFあり）

Publication in 2004

AsiaFlux TKY (冷温帯落葉広葉樹林)

1. Jia S. and Akiyama T. (2004) Study on the carbon dynamics of rhizosphere in a cool-temperate climate forest. 3. A new simple survey method of soil carbon storage based on the characterized soil horizon. Japanese Agricultural Systems Society 20: 168-175. (in Japanese with English abstract)
2. Inatomi M., Toda H. and Koizumi H. (2004) Effect of artificial nitrogen load on soil respiration in cool-temperate forests in Japan. Japanese Agricultural Systems Society 20(2): 176-184. (in Japanese with English abstract)
3. Inatomi, M., TODA, H. and KOIZUMI, H. (2004) Influence to the CO2 flux from the forest soil by nitrogen load. Journal of the Japanese Agricultural Systems Society 20: 176-184. (in Japanese with English abstract)
4. Nishimura N., Matsui Y., Ueyama T., Mo W., Saijo Y., Tsuda S., Yamamoto S. and Koizumi H. (2004) Evaluation of carbon budgets of Sasa senanensis community on the forest floor in a cool-temperate forest ecosystems, central Japan. Japanese Journal of Ecology 54: 143-158.
5. Inatomi M. (2004) Effect of acid rain on matter dynamics in a cool-temperate forest. The United Graduate School of Agricultural Science, Gifu University. (PhD Thesis)
6. Sakai T. (2004) Measurement and modeling of gross primary production in a cool-temperate deciduous broadleaved forest ecosystem. The United Graduate School of Agricultural Science, Gifu University. (PhD Thesis)

Publication in 2003

AsiaFlux TKY (冷温帯落葉広葉樹林)

1. Lee M.-S. (2003) Method for assessing forest carbon sinks by ecological process-based approach-A case study for Takayama Station, Japan. Korean Journal of Ecology 26(5): 289-269.
2. Jia S., Akiyama T., Mo W., Inatomi M. and Koizumi H. (2003) Temporal and spatial variability of soil respiration in a cool temperate broad-leaved forest. 1. Measurement of spatial variance and factor analysis. Japanese Journal of Ecology 53: 13-22. (in Japanese with English abstract)
3. Lee M.-S., Nakane K., Nakatsubo T. and Koizumi H. (2003) Seasonal changes in the contribution of root respiration to total soil respiration in a cool-temperate deciduous forest. Plant and Soil 255: 311-318.
4. Muraoka H., Koizumi H. and Pearcy R. W. (2003) Leaf display and photosynthesis of tree seedlings in a cool-temperate deciduous broadleaf forest understorey. Oecologia 135: 500-509.
5. Murayama S., Saigusa N., Chan D., Yamamoto S., Kondo H. and Eguchi Y. (2003) Temporal variations of atmospheric CO2 concentration in a temperate deciduous forest in central Japan. Tellus 55B: 232-243.

Publication in 2002

AsiaFlux TKY (冷温帯落葉広葉樹林)

1. Jia S. (2002) Study on the Carbon Dynamics in a Cool-Temperate Climate Forest -Especially focusing on the rhizoshpere-. United Graduate School of Agricultural Science, Gifu University. (PhD Thesis)
2. Jia S., Akiyama T., Sakai T. and Koizumi H. (2002) Study on the carbon dynamics of rhizosphere in a cool-temperate climate forest. 1. Relations between topography, vegetation and soil type distribution. Japanese Agricultural Systems Society 18: 26-35. (in Japanese with English abstract)
3. Jia S., Akiyama T. and Koizumi H. (2002) Study on the carbon dynamics of rhizosphere in a cool-temperate climate forest. 2. Estimation of carbon storage in ecosystem based on precise field measurements. Japanese Agricultural Systems Society 18: 142-151. (in Japanese with English abstract)
4. Lee M.-S. (2002) Dynamic Changes of Soil Respiration in a Cool-Temperate Deciduous Broad-Leaved Forest: Effect of Rainfall and Seasonal Contribution of Roots to the Soil Respiration. Graduate School of Biosphere Sciences, Hiroshima University. (PhD Thesis).
5. Lee M.-S., Nakane K., Nakatsubo T., Mo W. and Koizumi H. (2002) Effects of rainfall events on soil CO2 flux in a cool temperate deciduous broad-leaved forest. Ecological Research 17: 401-409. （PDFあり）
6. Saigusa N., Yamamoto S., Murayama S., Kondo H. and Nishimura N. (2002) Gross primary production and net ecosystem production of a cool-temperate deciduous forest estimated by the eddy covariance method. Agricultural and Forest Meteorology 112: 203-215. (PDFあり)
7. Sakai T., Jia S., Kawamura K. and Akiyama T. (2002) Estimation of aboveground biomass and LAI of understory plant (Sasa senanensis) using a hand-held spectro-radiometer. Journal of the Japan Society of Photogrammetry and Remote Sensing, 27-35. (in Japanese with English abstract)

Publication in 2001

AsiaFlux TKY (冷温帯落葉広葉樹林)

1. Kawamura K., Hashimoto Y., Sakai T. and Akiyama T. (2001) Effects of phonological changes in canopy leaf on the spatial and seasonal variations of understory light environment in a cool-temperate deciduous broad-leaved forest. Journal of Japanese Forest Society 83: 231-237. (in Japanese with English abstract) (PDFあり)
2. Kondo H., Saigusa N., Murayama S., Yamamoto S. and Kannari A. (2001) A numerical simulation of the daily variation of CO2 in the central part of Japan -summer case-. Journal of the Meteorological Society of Japan 79: 11-21. (PDFあり)
3. Muraoka H., Hirota H., Matsumoto J., Nishimura S., Tang Y., Koizumi H. and Washitani I. (2001) On the convertibility of different light availability indices, relative illuminance and relative photon flux density. Functional Ecology 15: 798-803
4. Saigusa N., Yamamoto S., Murayama S., Kondo H. and Gamo M. (2001) A long-term flux measurement over a cool-temperate deciduous forest by the eddy covariance method. Proceedings of International Workshop for Advanced Flux Network and Flux Evaluation: 145-148.
5. Sakai T. (2001) The effect of net primary production of understory vegetation on spatial and temporal variation of the light environment in forest canopies. United Graduate School of Agricultural Science, Gifu University. (Master Thesis)
6. Yamamoto S., Saigusa N., Murayama S. and Kondo H. (2001) Long-term results of flux measurement from a temperate deciduous forest site (Takayama). Proceedings of International Workshop for Advanced Flux Network and Flux Evaluation: 5-10.

Publication in 1996-2000

AsiaFlux TKY (冷温帯落葉広葉樹林)

1. Akiyama T., Sakai T., Jia S., Shinoda S. and Fukuo A. (2000) Examination of film-solarimeters for field use. Journal of the Japan Society of Photogrammetry and Remote Sensing 4: 13-18. (in Japanese with English abstract)
2. Mariko S., Nishimura N., Mo W., Matsui Y., Kibe T. and Koizumi H. (2000) Winter CO2 flux from soil and snow surfaces in a cool-temperate deciduous forest, Japan. Ecological Research 15: 363-372. (PDFあり)
3. Mariko S., Nishimura N., Mo W., Matsui Y., Yokozawa M. and Sekikawa S. (2000) Measurement of CO2 fluxes from soil and snow surfaces with open dynamic chamber technique. Environmental Sciences 13: 69-74.
4. Yamamoto S., Murayama S., Saigusa N. and Kondo H. (1999) Seasonal and inter-annual variation of CO2 flux between a temperate forest and the atmosphere in Japan. Tellus 50B: 402-413. (PDFあり)
5. Yamamoto S., Murayama S., Saigusa N. Kondo H. and Nishimura N. (1998) Uptake rates of carbon dioxide by forest ecosystems. 7: 73-81. (in Japanese with English abstract)
6. Nakazawa T., Murayama S., Tori S., Ishizawa M., Otonashi K., Aoki S. and Yamamoto S. (1997) Temporal variations of the CO2 concentration and its carbon and oxygen isotopic ratios in a temperate forest in the central part of the main island of Japan. Tellus 49B: 364-381. （PDFあり）
7. Kondo H., Yamamoto S. and Murayama S. (1996) An observational study of heat budget in the deciduous temperate forest over the complex terrain. 5: 273-283. (in Japanese with English abstract)

(2022.11.24 updated by T.M. Saitoh)
(2021.1.6 updated by T.M. Saitoh)
(2020.1.23 updated by Y. Maruya)
(2019.11.14 updated by Y. Maruya)
(2017.7.4 updated by T.M. Saitoh)
(2009.11.10. updated by H. Muraoka and T.M. Saitoh)
(2006.2.6. updated by W. Mo and H. Muraoka)