Suguru Sato scite author profile

The effects of chronic, mild heat stress on fruit set, fruit production, release of pollen grains, photosynthesis, night respiration and anther dehiscence were examined in tomatoes (Lycopersicon esculentum Mill.) differing in high-temperature sensitivity. Plants were grown under three temperature regimes: (1) 28/22 or 26/22 °C (optimal temperature); (2) 32/26 °C (high temperature); and (3) 32/26 °C day/night temperatures relieved at 28/22 °C for 10 d before anthesis, then returned to 32/26 °C (relieving treatment). FLA 7156 was the only cultivar with fruit set at 32/26 °C. All five cultivars, however, had fruit set under the relieving treatment (RT). The longer the relief, the higher the percentage of fruit set. Longer periods of relief also increased the number of pollen grains released, and linear regression analysis showed a significant relationship between the number of pollen grains released and the percentage of fruit set. Germination of pollen grains was also lowered in high-temperature-grown plants. The number of pollen grains produced, photosynthesis and night respiration did not limit fruit set under chronic, mild heat stress, however. This suggested that cultivar differences in pollen release and germination under heat stress are the most important factors determining their ability to set fruit.

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Determining critical pre‐ and post‐anthesis periods and physiological processes in Lycopersicon esculentum Mill. exposed to moderately elevated temperatures

Sato¹,

Peet²,

Thomas³

2002

227

154

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To determine the thermosensitive periods and physiological processes in tomato flowers exposed to moderately elevated temperatures, tomato plants (Lycopersicon esculentum Mill., cv. NC 8288) were grown at 28/22 degrees C or 32/26 degrees C day/night temperature regimes and then transferred to the opposite regime for 0-15 d before or 0-24 h after anthesis. For plants initially grown at 28/22 degrees C, moderate temperature stress before anthesis decreased the percentage of fruit set per plant, but did not clarify the thermosensitive period. The same level of stress did not significantly reduce fruit set when applied immediately after anthesis. For plants initially grown at 32/26 degrees C, fruit set was completely prevented unless a relief period of more than 5 d was provided before anthesis. The same level of stress relief for 3-24 h after anthesis also increased fruit set. Plants were most sensitive to 32/26 degrees C temperatures 7-15 d before anthesis. Microscopic investigation of anthers in plants grown continuously at high temperature indicated disruption of development in the pollen, endothecium, epidermis, and stomium. This disruption was reduced, but still observable in plants relieved from high temperature for 10 d before anthesis.

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Love and Marriage in Eleven Cultures

Levine

Sato

Hashimoto

et al. 1995

Journal of Cross-Cultural Psychology

155

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College students from secondary population centers in India, Pakistan, Thailand, Mexico, Brazil, Japan, Hong Kong, the Philippines, Australia, England, and the United States were asked to rate the importance of love for both the establishment and the maintenance of a marriage. Love tended to receive greatest importance in the Western and Westernized nations and least importance in the underdeveloped Eastern nations. These differences were stronger and clearer for decisions regarding the establishment of a marriage than for the maintenance and dissolution of a marriage. There were few significant sex differences, either across or within countries. Individualistic cultures, as opposed to collective cultures, assigned much greater importance to love in marriage decisions. Respondents assigning greater importance to love also tended to come from nations with higher economic standards of living, higher marriage rates and divorce rates, and lower fertility rates.

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Ferromagnetic nanoparticles for magnetic hyperthermia and thermoablation therapy

Kita¹,

Oda²,

Kayano³

et al. 2010

J. Phys. D: Appl. Phys.

114

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The use of ferromagnetic nanoparticles for hyperthermia and thermoablation therapies has shown great promise in the field of nanobiomedicine. Even local hyperthermia offers numerous advantages as a novel cancer therapy; however, it requires a remarkably high heating power of more than 1 kW g−1 for heat agents. As a candidate for high heat generation, we focus on ferromagnetic nanoparticles and compare their physical properties with those of superparamagnetic substances. Numerical simulations for ideal single-domain ferromagnetic nanoparticles with cubic and uniaxial magnetic symmetries were carried out and MH curves together with minor loops were obtained. From the simulation, the efficient use of an alternating magnetic field (AMF) having a limited amplitude was discussed. Co-ferrite nanoparticles with various magnitudes of coercive force were produced by co-precipitation and a hydrothermal process. A maximum specific loss power of 420 W g−1 was obtained using an AMF at 117 kHz with H 0 = 51.4 kA m−1 (640 Oe). The relaxation behaviour in the ferromagnetic state below the superparamagnetic blocking temperature was examined by Mössbauer spectroscopy.

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Suguru Sato

Moderate Increase of Mean Daily Temperature Adversely Affects Fruit Set of Lycopersicon esculentum by Disrupting Specific Physiological Processes in Male Reproductive Development

Physiological factors limit fruit set of tomato (Lycopersicon esculentum Mill.) under chronic, mild heat stress

Determining critical pre‐ and post‐anthesis periods and physiological processes in Lycopersicon esculentum Mill. exposed to moderately elevated temperatures

Love and Marriage in Eleven Cultures

Ferromagnetic nanoparticles for magnetic hyperthermia and thermoablation therapy

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