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Effects of environmental factors on <i>Sparganium emersum</i>and <i>Sparganium erectum</i>colonization in two drainage ditches with different maintenance
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作者 Korehisa Kaneko hiroshi jinguji 《Agricultural Sciences》 2012年第4期538-544,共7页
In the Niheishimizu and Ooshimizu sections of the town of Misato in the Akita Prefecture, Northern Japan, there are many abundant spring water areas. Sparganium (Sparganium emersum and Sparganium erectum) species are ... In the Niheishimizu and Ooshimizu sections of the town of Misato in the Akita Prefecture, Northern Japan, there are many abundant spring water areas. Sparganium (Sparganium emersum and Sparganium erectum) species are widely distributed in the irrigation water that fed by spring water. The irrigation waters were divided the natural type ditch and the maintained ditch that connect with nearby natural ditch to promote environmentally friendly agriculture. This study was conducted in both sections to support the maintenance of the irrigation water fed by the abundant spring water. A vegetation survey was conducted in September of 2005. The survey collected data on the amount of vegetation cover and the stem lengths of the plant species found in selected locations of the study area. The water depths and the flow velocities were also measured in these locations. As for the growth situation of S. emersum and S. erectum, the submerged form of S. emersum was found in water approximately 15 cm deep with a surface flow velocity of approximately 7 cm/s. This species was characterised by a relatively fast flow and relatively shallow water. The emergent and submerged growth forms of S. emersum were found in waters having flow velocities faster than those associated with S. erectum. The emergent form of S. emersum grew in relatively deep water. S. emersum is more capable of adjusting to the conditions of stream habitats than S. erectum. 展开更多
关键词 Sparganium Flow Velocity Water Depth Emergent GROWTH FORM Submerged GROWTH FORM Natural type DITCH Maintained DITCH
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Effect of Soil Transplantation to Abandoned Paddy Field on the Conservation of Threatened Hydrophyte Species
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作者 Korehisa Kaneko hiroshi jinguji 《Agricultural Sciences》 2020年第10期869-881,共13页
Threatened or near threatened hydrophytes, <em>Ottelia alismoides</em>, <em>Monochoria korsakowii</em>, <em>Najas graminea</em>, <em>Najas minor</em> and <em>Chara... Threatened or near threatened hydrophytes, <em>Ottelia alismoides</em>, <em>Monochoria korsakowii</em>, <em>Najas graminea</em>, <em>Najas minor</em> and <em>Chara braunii</em>, appeared in an inundated paddy field after the 2011 Tohoku-oki Tsunami in Japan. Due to the reconstruction of roads and agricultural restoration efforts implemented following the disaster, the top soil of the paddy field was transplanted to another abandoned paddy field in 2014 to avoid extirpation of the aforementioned species. We then conducted vegetation surveys in July and September from 2014 to 2016. <em>Monochoria korsakowii</em> appeared at the transplantation site from 2014 to 2016, forming a large community in 2016. The volume of this species was significantly higher than that in July 2014 and 2015. Although <em>Ottelia alismoides</em> and<em> Chara braunii</em> appeared in 2014, they were not observed in 2015. <em>Najas graminea</em> and<em> Najas minor</em> were not observed during the vegetation survey, and<em> Salvinia natans</em> and<em> Alisma plantago-aquatica</em> newly appeared at the transplantation site. Our findings suggest that transplantation of surface soil and the seed bank therein to an abandoned paddy field is well suited for the conservation of hygrophytes such as <em>Monochoria korsakowii</em>, <em>Ottelia alismoides</em> and <em>Chara braunii</em>. Preventing disturbances that suppress the growth of herbaceous perennial plants is considered necessary for maintaining the habitats of threatened plant species. 展开更多
关键词 Threatened Hydrophytes Donor Soil Soil Disturbance Abandoned Paddy Field TSUNAMI
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