Yoshiaki Honda scite author profile

The GCOM-C (SHIKISAI) satellite was developed to understand the mechanisms of global climate change. The Second-generation Global Imager (SGLI) onboard GCOM-C is an optical sensor observing wavelengths from 380 nm to 12.0 μm in 19 bands. One of the notable features is that the resolution of the 1.63-, 10.8-, and 12.0-µm bands is 250 m, with an observation frequency of 2-3 days. To investigate the effective use and potential of the 250-m resolution of these SGLI bands in the study of eruptive activities, we analyzed four practical cases. As an example of large-scale effusive activity, we studied the 2018 Kilauea eruption. By analyzing the series of 10.8-μm band images using cumulative thermal anomaly maps, we could observe that the lava effused on the lower East Rift Zone, initially owed down the southern slope to the sea, and then moved eastward. As an example of lava dome growth and generation of associated pyroclastic ows, the activity at Sheveluch between December 2018 and December 2019 was analyzed. The 1.63-and 10.8-µm bands were shown to be suitable for observing growth of the lava dome and occurrence of pyroclastic ows, respectively. We found that the pyroclastic ows occurred during periods of rapid lava dome expansion. For the study of an active crater lake, the activity of Ijen during 2019 was analyzed. The lake temperature was found to rise rapidly in mid-May and reach 38 °C in mid-June. We also analyzed the intermittent activities of small-scale Vulcanian eruptions at Sakurajima in 2019. The 1.63-µm band was useful for detecting activities that are associated with Vulcanian eruptions. Analytical results for these case studies demonstrated that the GCOM-C SGLI images are bene cial for observing various aspects of volcanic activity, and their real-time use may contribute to reducing eruption-related disasters.

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Organization of connectivity of the rat presubiculum: I. Efferent projections to the medial entorhinal cortex

Honda

Ishizuka²

2004

J of Comparative Neurology

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The organization of the laminar and topographical projections from the presubiculum to the entorhinal area was studied in the rat by anterograde labeling with Phaseolus vulgaris leucoagglutinin and retrograde labeling with horseradish peroxidase conjugated to wheat germ agglutinin. We found that the pattern of presubiculo-entorhinal projections differs between the superficial and deep layers of the presubiculum. The superficial layers (layers II and III) of the presubiculum gave rise to bilateral projections to layers I-VI of the medial entorhinal area (MEA). Many terminals were distributed in layer III, fewer in layer II and the deep portion of layer I, and many fewer terminals in the deep layers (layers V and VI) of MEA. In contrast, the deep layers (layers V and VI) of the presubiculum gave rise to ipsilateral projections to the entorhinal area. Many axon terminals were distributed in layers V and VI of MEA and the most superficial portion of layer I of MEA, but very few in layers II and III. In addition, the ramifications in layer I extended to the lateral entorhinal area (LEA). Using two-dimensional unfolded maps of parahippocampal cortices, we elucidated the distinct topographical relationship in the presubiculo-entorhinal projection: 1) The septotemporal or longitudinal axis of the presubiculum corresponded to the axis on the MEA/LEA boundary, where the septal presubiculum projected toward the rhinal fissure and the temporal presubiculum projected away from the fissure. 2) The proximodistal axis of the presubiculum corresponded to the axis from the MEA/LEA boundary to the MEA/parasubiculum boundary that was virtually perpendicular to the MEA/LEA boundary, where the proximal portion of the presubiculum (close to the subiculum) projected to the region near the MEA/LEA boundary.

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Enhancement of acetylcholine release during paradoxical sleep in the dorsal tegmental field of the cat brain stem

Kodama

Takahashi

Honda

1990

Neuroscience Letters

163

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Glial Dysfunction Causes Age-Related Memory Impairment in Drosophila

Yamazaki

Horiuchi

Ueno

et al. 2014

Neuron

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Several aging phenotypes, including age-related memory impairment (AMI), are thought to be caused by cumulative oxidative damage. In Drosophila, age-related impairments in 1 hr memory can be suppressed by reducing activity of protein kinase A (PKA). However, the mechanism for this effect has been unclear. Here we show that decreasing PKA suppresses AMI by reducing activity of pyruvate carboxylase (PC), a glial metabolic enzyme whose amounts increase upon aging. Increased PC activity causes AMI through a mechanism independent of oxidative damage. Instead, increased PC activity is associated with decreases in D-serine, a glia-derived neuromodulator that regulates NMDA receptor activity. D-serine feeding suppresses both AMI and memory impairment caused by glial overexpression of dPC, indicating that an oxidative stress-independent dysregulation of glial modulation of neuronal activity contributes to AMI in Drosophila.

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Role of infected grandmothers in transmission of Helicobacter pylori to children in a Japanese rural town

Urita

Watanabe

Kawagoe

et al. 2013

J Paediatrics Child Health

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Aim: Although the prevalence of Helicobacter pylori (H. pylori) increases with age and the main period of acquisition is childhood, the route of transmission of H. pylori infection remains unclear. This study aims to evaluate the relationship between prevalence of children and grandparents. Methods: A total of 838 consecutive children who attended the Urita clinic and whose blood was taken for work up were enrolled in the present study. They were 449 boys and 389 girls, with a mean age of 12.4 years. H. pylori serology of their family members who were living together in one house was picked up to analyse intra-familial clustering of H. pylori infection. The family members of these children consisted of 448 fathers, 597 mothers, 205 grandfathers, 361 grandmothers and 589 siblings. Results: The seropositive rates of mothers, grandmother and siblings in seropositive children were significantly higher than those in seronegative children. H. pylori infection in mothers and grandmothers was a marked risk factor for infection in the index children. Larger family size was not a risk factor for H. pylori infection. In contrast, having an infected father or grandfather was not an independent predictor for children infection.Conclusions: Our data demonstrate that not only mother-to-child transmission but also grandmother-to-child transmission is an important mechanism for the spread of H. pylori in a three-generation household.

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Effects of constant daylight exposure during early development on marmoset psychosocial behavior

Senoo

Okuya

Sugiura

et al. 2011

Progress in Neuro-Psychopharmacology and Biological Psychiatry

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Yoshiaki Honda

Essential Role of the Inositol 1,4,5-Trisphosphate Receptor/Ca2+ Release Channel in Ca2+ Waves and Ca2+ Oscillations at Fertilization of Mammalian Eggs

Relationships between percent vegetation cover and vegetation indices

Global Change Observation Mission (GCOM) for Monitoring Carbon, Water Cycles, and Climate Change

Organization of connectivity of the rat presubiculum: I. Efferent projections to the medial entorhinal cortex

Enhancement of acetylcholine release during paradoxical sleep in the dorsal tegmental field of the cat brain stem

Glial Dysfunction Causes Age-Related Memory Impairment in Drosophila

Role of infected grandmothers in transmission of Helicobacter pylori to children in a Japanese rural town

Effects of constant daylight exposure during early development on marmoset psychosocial behavior

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