Your search keyword '"Harada, Koichiro"' showing total 6 results

1. Spectral indices for remote sensing of phytomass, deciduous shrubs, and productivity in Alaskan Arctic tundra.

Author

Kushida, Keiji, Hobara, Satoru, Tsuyuzaki, Shiro, Kim, Yongwon, Watanabe, Manabu, Setiawan, Yudi, Harada, Koichiro, Shaver, Gaius R., and Fukuda, Masami

Subjects

REMOTE sensing, PLANT biomass, DECIDUOUS plants, SHRUBS, FOREST productivity, TUNDRA plants

Abstract

The relationships amonginsituspectral indices, phytomass, plant functional types, and productivity were determined through field observations of moist acidic tundra (MAT), moist non-acidic tundra (MNT), heath tundra (HT), and sedge-shrub tundra (SST) in the Arctic coastal tundra, Alaska, USA. The two-band enhanced vegetation index (EVI2) was found more useful for estimating vascular plant green phytomass, leaf carbon and nitrogen, leaf carbon and nitrogen turnover, and vascular plant net primary productivity (NPP) without root production than the normalized difference vegetation index (NDVI). Deciduous shrub green phytomass was strongly correlated with deciduous shrub index (DSI), defined as EVI2 × (Rblue+Rgreen–Rred)/(Rblue+Rgreen+Rred) (with a coefficient of determination (R2) of 0.63).Rblue,Rgreen, andRreddenote the blue, green, and red bands, respectively. This is becauseRblueandRgreenvalues were higher than theRredvalues for green leaves, deciduous shrub stems, lichens, and rocks compared with other ecosystem components, and EVI2 values of lichens and rocks were very low. The vascular plant NPP without root production was estimated with anR2of 0.67 using DSI and EVI2. Our results offer empirical evidence that a new spectral index predicts the distribution of deciduous shrub and plant production, which influences the interactions between tundra ecosystems and the atmosphere. [ABSTRACT FROM PUBLISHER]

Published

2015

2. Vegetation and Permafrost Thaw Depth 10 Years after a Tundra Fire in 2002, Seward Peninsula, Alaska.

Author

Narita, Kenji, Harada, Koichiro, Saito, Kazuyuki, Sawada, Yuki, Fukuda, Masami, and Tsuyuzaki, Shiro

Subjects

WILDFIRES, EFFECT of fires on plants, PERMAFROST forest ecology, BOTANY, EFFECT of fires on soils

Abstract

The recovery of tundra vegetation and the depth of permafrost thaw were observed on the Seward Peninsula, Alaska, the site of a wildfire in 2002. The study compared the vegetation in burned and adjacent unburned tundra from 5 to 10 years post-fire. The effects of the fire on the vegetation varied between species and were spatially variable at the stand scale. The cover of evergreen shrubs, bryophytes, and lichens was still drastically decreased 5 years after the fire and had not recovered even 10 years after the fire. By contrast, the cover of graminoids, especially Eriophorum vaginatum, and of the deciduous shrub Vaccinium uliginosum increased. The depth of permafrost thaw increased, and its spatial pattern was related to vegetation structure; specifically, deeper thaw corresponded to graminoid-rich areas, and shallower thaw corresponded to shrub-rich areas. As the E. vaginatum cover increased, the thaw depth recovered to that of the unburned area, and the spatial variation had disappeared 10 years after the fire. Our results indicate that both the prefire vegetation structure and the differences in the regrowth properties between species play important roles in the early stage of tundra ecosystem recovery after wildfire. Our findings also show that the favorable growing conditions related to deeper thaw do not last long. [ABSTRACT FROM AUTHOR]

Published

2015

3. Permafrost age and thickness near Adventfjorden, Spitsbergen.

Author

Harada, Koichiro and Yoshikawa, Kenji

Published

1996

4. Inverses of virasoro operators.

Author

Harada, Koichiro and Lam, Ching Hung

Published

1998

5. On finite simple groups possessing 2-local blocks of orthogonal type.

Author

Harada, Koichiro

Published

1980

6. MURC, a Muscle-Restricted Coiled-Coil Protein That Modulates the Rho/ROCK Pathway, Induces Cardiac Dysfunction and Conduction Disturbance.

Author

Ogata, Takehiro, Ueyama, Tomomi, Isodono, Koji, Tagawa, Masashi, Takehara, Naofumi, Kawashima, Tsuneaki, Harada, Koichiro, Takahashi, Tomosaburo, Shioi, Tetsuo, Matsubara, Hiroaki, and Oh, Hidemasa

Subjects

PHOSPHATIDYLSERINES, CARRIER proteins, ATRIAL natriuretic peptides, CARDIAC contraction, ARRHYTHMIA, HEART diseases

Abstract

We identified a novel muscle-restricted putative coiled-coil protein, MURC, which is evolutionarily conserved from frog to human. MURC was localized to the cytoplasm with accumulation in the Z-line of the sarcomere in the murine adult heart. MURC mRNA expression in the heart increased during the developmental process from the embryonic stage to adulthood. In response to pressure overload, MURC mRNA expression increased in the hypertrophied heart. Using the yeast two-hybrid system, we identified the serum deprivation response (SDPR) protein, a phosphatidylserine-binding protein, as a MURC-binding protein. MURC induced activation of the RhoA/ROCK pathway, which modulated serum response factor-mediated atrial natriuretic peptide (ANP) expression and myofibrillar organization. SDPR augmented MURC-induced transactivation of the ANP promoter in cardiomyocytes, and RNA interference of SDPR attenuated the action of MURC on the ANP promoter. Transgenic mice expressing cardiac-specific MURC (Tg-MURC) exhibited cardiac contractile dysfunction and atrioventricular (AV) conduction disturbances with atrial chamber enlargement, reduced thickness of the ventricular wall, and interstitial fibrosis. Spontaneous episodes of atrial fibrillation and AV block were observed in Tg-MURC mice. These findings indicate that MURC modulates RhoA signaling and that MURC plays an important role in the development of cardiac dysfunction and conduction disturbance with increased vulnerability to atrial arrhythmias. [ABSTRACT FROM AUTHOR]

Published

2008