泥沙滩区分为:盐碱植物-滨螺带和招潮蟹-大眼蟹带;
There are two zones in the belt of sand-mud beaches: The halophyte-Littorina zone and Uca-Macropthalmus zone.
简要报道了曹家堡机场飞行区的气候特点,讨论了土壤、植被和耐旱耐盐碱植物的种植结果。
Climatie condition of runway area in Xining airport was reported ang the soil, vegetation and grow of drought-resistant and salt-tolerant plants were discussed.
盐碱地含有高浓度的氯化钠和其他盐类,限制了植物的生长,研究继续集中于开发耐盐的农作物品种。
Saline soils, which have high concentrations of sodium chloride and other salts, limit plant growth, and research continues to focus on developing salt-tolerant varieties of agricultural crops.
因为土壤盐碱很严重,因此,植物选择耐盐碱品种及选择乡土树种。
Soil salinity is a serious.Therefore, Salt Tolerance Plant species selection and select local native plant species.
我主要负责植物设计。因为土壤盐碱很严重,因此,植物选择耐盐碱品种及选择乡土树种。
I am mainly responsible for plant design. Soil salinity is a serious. Therefore, Salt Tolerance plant species selection and select local native plant species.
我主要负责植物设计。因为土壤盐碱很严重,因此,植物选择耐盐碱品种及选择乡土树种。
Plant Designer: I am mainly responsible for plant design. Soil salinity is a serious. Therefore, Salt Tolerance plant species selection and select local native plant species.
主要植物是马唐和鼠尾粟(盐碱土壤的代表植物)等茅草。
The main plant is crabgrass and tail millet (soil salinity representative of plants) and other grass.
这些都较大地提高了白刺的利用价值,为重盐碱区提供了良好的盐土改良植物。
And these all improve the Nitratia 's practical values and provide an excellent plant for the improvement of the high saline and alkaline area.
综述了近年来植物渗透胁迫研究进展,对干旱胁迫、盐碱胁迫和冷伤害等问题进行了讨论。
This paper reviewed the recent advances in research of plant osmotic stress. The problems of arid stress, salt stress and chilling injuries were discussed.
的茎,叶,叶柄进行了结构植物学研究,实验结果发现,生长在白城地区的两种植物,都演化出了不同形态的抗盐碱结构。
The results show that the plants living in Baicheng city evolve various saline-alkali resistant structure, and different plant can use different way for adapt same or similar ecosystem.
在盐碱地利用微区改土植树技术,对微区的土壤环境进行有效改良,创造有利于植物生长的立地条件,是在高盐碱地区进行城市绿化的一种行之有效地新方法。
Soil improvement in a small district of plant trees technique. The good soil condition that trees can grow well was made. This is a better method than the others.
盐生植物的应用对于解决盐碱地生境下的生态平衡、塑造地域景观特色具有重要的作用。
Halophyte's application plays an important role in keeping the ecological balance and molding landscape characteristic of the region of the salt and alkaloid environment.
盐碱土是陆地上分布广泛的一种土壤类型,其不良的理化性状严重影响着植物的生长发育。
The saline-alkali soil is a widespread of soil types in the land distribution, and its serious influence the plant growth and development on physical and chemical characteristic.
因为土壤盐碱很严重,因此,植物选择耐盐碱品种及选择乡土树种。
Soil salinity is a serious. Therefore, Salt Tolerance plant species selection and select local native plant species.
该属内植物对逆境具有较强的抗性,尤其是对于干旱、盐碱、高寒和病虫害等有较强的抵抗能力。
It has a very strong resistant capability, especially to drought, salt, freezing, plant diseases and insect pests.
本发明涉及植被的栽培技术,具体地说是一种在干旱和大风荒漠盐碱环境种植碱蓬和其他盐生植物的方法。
The invention relates to a cultivation technology for vegetation, in particular to a method for planting Suaeda salsa and other halophytes in the dry and windy desert saline and alkaline soil.
我国有大量的盐碱地无法利用,选用适宜的盐生植物,特别是耐盐树种是改良和利用盐碱地的最切实可行的方法。
A large number of alkaline soils can not be used in China. It is a feasible method that selecting proper halophytic vegetation especially salt-enduring species to ameliorate and utilize alkaline soil.
我国干旱、盐碱化和水土流失的问题十分严重,因此选育获得抗旱、耐盐植物新品种具有重大的战略意义。
The problems of drought, salinization and soil erosion are very serious in China , so breeding to fight the drought and salt tolerance of New Varieties of Plants is of great strategic significance.
主要分布在中国西北荒漠地区,是一种耐干旱、耐盐碱、耐风蚀的优良的防风固沙植物。
It mainly distributed in arid-desert areas of northwest in China, it has strong tolerance to the drought stress, salt stress, wind erosion stress.
本发明涉及一种浅槽改良原位修复盐碱地种植植物的方法。
The invention relates to a method for planting plants by improving a shallow groove and restoring salinate fields in situ;
在盐碱两种短期胁迫下,虎尾草幼苗不同的光合、荧光响应及其它指标的变化表明,碱胁迫是一种不同于盐胁迫的生物胁迫,其对植物具有更大的破坏性和伤害性。
The different results in C. virgata indicated that alkali stress with greater destructive effects, different from salt stress, is an important abiotic stress, and worthy of further study.
在盐碱两种短期胁迫下,虎尾草幼苗不同的光合、荧光响应及其它指标的变化表明,碱胁迫是一种不同于盐胁迫的生物胁迫,其对植物具有更大的破坏性和伤害性。
The different results in C. virgata indicated that alkali stress with greater destructive effects, different from salt stress, is an important abiotic stress, and worthy of further study.
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