1·Upland rice grows in dry soil.
旱稻生长在旱地上。
2·Compared with paddy rice, upland rice showed better processing quality, nutrient quality and eating quality.
与水稻相比,陆稻的加工品质、营养品质和食味品质较优。
3·The growth and development of upland rice root system were studied by three-dimensional coordinate container method.
采用自创的“三维坐标容器法”,研究了潮砂土、红壤土、水稻土对陆稻根系生长发育的影响。
4·Another tack would be to tilt production toward upland rice, which is grown on dry land and absorbs far less arsenic than paddy rice.
另一方法是倾向于种植生长在干燥的土地,吸收砷远远少于水稻的陆上稻谷。
5·The characters of mineral nutrition uptake and efficiency of tiller production in upland rice were studied with pond culture experiment.
在池栽条件下研究了不同水分处理对旱稻吸收氮磷钾及分蘖生产效率的影响。
6·The changes of chlorophyll content in the leaves of both Brazilian upland rice and normal rice varieties after drought stress were not obvious.
干旱胁迫后不同水陆稻品种叶片中叶绿素含量变化均不明显;
7·The improved methods for drought tolerance of rice and the utilization of upland rice germplasm in the paddy-upland hybrid rice were also discussed.
还对栽培稻品种的抗旱性改良方法以及陆稻种质资源在水、陆杂交稻中的利用进行了探讨。
8·Upland rice is not only the most suitable rice type for upland and drought areas, but also the valuable resources for drought tolerance breeding in rice.
陆稻是山区及干旱地区最适宜种植的稻种类型,亦是水稻抗旱育种的宝贵资源。
9·Experimental results also indicated that upland rice, with strong root system and high water uptake ability, is rather suitable to the hilly red earth area.
旱稻根系发达,吸水吸肥和抗旱能力强,特别适宜丘陵地区种植。
10·Root to shoot ratio of upland rice (0.116) was remarkably bigger than that of paddy rice (0 087). Root respiration rate of the former was 2.7 times of the latter.
覆草旱作的根冠比(0.116)显著大于常规水稻(0.087),前者的根系呼吸强度是常规水稻的2.7倍。