Journal of Forest Research
The Journal of Forest Research (JFR) publishes original articles, reviews, and short communications covering all aspects of forest research, both basic and applied, with the aim of encouraging international communication between scientists in different fields who share a common interest in forest science.
JFR is pleased to present FREE ACCESS to these award winning papers. Simply click on the articles below to start reading.
The following paper has won the Journal of Forest Research Award 2020. This award-winning paper was selected from all original articles and short communications published in the Journal of Forest Research from July 2018 to June 2019, by the JFR Award nomination committee of the Japanese Forest Society.
Sprouting capacity of Quercus serrata Thunb. and Quercus acutissima Carruth. after cutting canopy trees in an abandoned coppice forest
Tai Tien Dinh, Yasuaki Akaji, Tetsuya Matsumoto, Takumi Toribuchi, Takushi Makimoto, Muneto Hirobe & Keiji Sakamoto (2018) | Journal of Forest Research, 23:5, 287-296
Rejuvenation by sprouting is a possible solution to prevent abandoned coppice forests in Japan from outbreaks of oak wilt disease. Applying this approach requires examining the sprouting capacity of large-sized oak trees. Therefore, the present study investigated the effects of stump size, sprout characteristics (emerging time and origin position), and environmental factors (slope, convexity, soil moisture, soil net nitrogen mineralization rate (Net-NMR) and canopy closure) on sprout regeneration of the two widely distributed oaks in Japan, Quercus serrata and Quercus acutissima, in the first growing season after cutting. Our results evidence that the ability of sprouting and the number of living sprouts might not be reduced in large-sized trees, and the increasing of light availability could promote sprout regeneration.
The following paper has won the Journal of Forest Research Award 2019. This award-winning paper was selected from all original articles and short communications published in the Journal of Forest Research from July 2017 to June 2018, by the JFR Award nomination committee of the Japanese Forest Society.
Extending effect of a wind disturbance: mortality of Abies sachalinensis following a strong typhoon in a natural mixed forest
Tsuyoshi Sato, Haruka Yamazaki & Toshiya Yoshida (2017) | Journal of Forest Research, 22:6, 336-342
Increasing forest damage from strong winds associated with climate change has become a global concern for forest management. This article revealed the long-term extended effect on forest dynamics of a severe wind disturbance event based on 10 years intensive monitoring of a 3ha forest stand. This study focused on the delayed mortality after the disturbance, and successfully demonstrated critical factors of tree death have gradually shifted from physical to physiological causes. The novelty and inventiveness of this research and high reliability of the results supported by sufficient data are highly appreciated and expected to contribute greatly to the development of forest management required under climate change.
The following paper has won the Journal of Forest Research Award 2018. This award-winning paper was selected from all original articles and short communications published in the Journal of Forest Research from July 2016 to June 2017, by the JFR Award nomination committee of the Japanese Forest Society.
Wei Wang, Yuichi Hanai, Chisato Takenaka, Rie Tomioka, Kazuya Iizuka, and Hajime Ozawa (2016) Journal of Forest Research 21 (5): 251–258
Wang et al. (2016) was highly evaluated by their careful and well-organized experiments which clearly showed the absorption of cesium through bark of Japanese cedar (Cryptomeria japonica), which is one of the most hot topics in the dynamics of radiocesium in forest plantation.
The Fukushima Daiichi Nuclear Power Plant (FDNPP) accident in March 2011 has released huge amount of radiocesium (137Cs and 134Cs), and they contaminated vast area of eastern Honshu of Japan. The major part of the contaminated area is forests that have been managed for timber of Japanese cedar, oak bed logs for shiitake mushroom production, charcoal, etc. Through the intensive survey by national and local governments and many researchers, contamination level of the forests has been clarified. However, to reactivate the forest management in such areas, prediction of pollution level in future is desperately needed from the society. For the prediction of radiocesium concentration in timbers and logs, it is necessary to understand the cesium dynamics in the forest ecosystems as well as the pathway and flux of cesium inside the trees. After the initial radiocesium deposition after the accident, three potential pathways of absorption by trees are considered, i.e. from leaf surfaces, from bark surfaces, and uptake by roots. However, the contribution of these pathways and translocation in trees has not been fully understood in the previous studies after the Chernobyl accident, partly because of the initial suppression of information and lack of early studies just after the accident.
Wang et al. (2016) conducted field experiments in two sites with different level of contamination to investigate the cesium absorption from bark of mature trees of Japanese cedar. They applied stable isotope of cesium (133Cs) to the bark carefully not to contaminate the soil. The results in two sites showed the same trend which proved the absorption of cesium from the bark. They also clarified the radial translocation to heartwood through sapwood and vertical translocation to shoots at the tree top. Their methods can be applied to other tree species and will contribute largely to understand the radiocesium dynamics in forests and to control the contamination of wood products.
Kenji Fukuda Editor-in-Chief
The following two papers have won the Journal of Forest Research Award 2017.
These award-winning papers were selected from all original articles and short communications published in the Journal of Forest Research (JFR) from July 2015 to June 2016, by the JFR Award nomination committee of the Japanese Forest Society.
An overview of the science–policy interface among climate change, biodiversity, and terrestrial land use for production landscapes
Ian D. Thompson (2015)
Journal of Forest Research 20 (5): 423-429
Potential of soil seed banks in the ecological restoration of overgrazed floor vegetation in a cool-temperate old-growth damp forest in eastern Japan
Atsushi Tamura (2016)
Journal of Forest Research 21 (1): 43-56
These two original articles have great potential to influence not only to scientists and researchers but also to policy makers facing to global and local forest degradation problems: Thompson (2015) discussed the worldwide forest policies for mitigation and adaptation to climate change, and Tamura (2016) provided an evidence of the large impact of deer overgrazing on the potential of soil seed bank.
Thompson (2015) is an original article in the special issue of JFR edited by Dr. Ryo Kohsaka with selected papers from the international conference titled “Sustainable Management including the use of Traditional Knowledge in Satoyama and Other SEPLS” in 2014 sponsored by OECD-CRP (Co-operative Research Programme) co-organized by Dr. Thompson, the author, together with Dr. Kohsaka. It has marshalled the scientific knowledge on forest which is the basis of the up-to-date forest policies for mitigating the climate change and adapting to it. He says “Global progress in addressing climate change through mitigation and adaptation has been slow, although policy tools are available and most countries now have some climate change policies.” Simple mitigation policy focusing on carbon budget may mislead to conversion of natural forests into simple plantations which are low in their biodiversity and ecosystem services. Forest policies accounting biodiversity are required as it is crucial for resilience of a forest ecosystem and human society. The author proposed framework for incorporating science and local knowledge into forest policy and demonstrated possible adaptation strategies for climate change.
Tamura (2016) is the first report which showed the impact of deer overpopulation to the soil seed bank of an old-growth damp forest. In his research field, Tanzawa mountains in eastern Japan, has suffered from overgrazing by sika deer (Cervus nippon) since 1970s, when the deer problem has not become evident in other areas. He surveyed the potential of soil seed bank and floor vegetation both inside and outside a deer exclosure in an old-growth damp forest, which is one of the earliest deer fences in Japan, and compared it with the vegetation data taken before the deer population increased. From the results, the soil seed bank outside the exclosure has found to have little potential of floor vegetation recovery. He proposed that conservation measures (deer exclosures and deer control) must be introduced before the floor vegetation is retrogressed by overgrazing. This paper clearly showed the importance and usefulness of long-term experiments and monitoring in forest science.