3种荒漠盐生植物根系及根毛形态特征的比较研究

在水培条件下,针对梭梭、囊果碱蓬和钠猪毛菜3种荒漠盐生植物,研究它们苗期在不同盐浓度条件下根系和根毛形态的差异。结果表明：一定浓度的盐分可以促进3种盐生植物生长,但较高浓度的盐抑制其生长,特别是对根系生长的抑制作用更大。在同样盐浓度下,钠猪毛菜的生长最快,生物量也最大。在盐分浓度较低时,3种盐生植物的主根长和总根长都有所增加,与对照相比,囊果碱蓬增加的幅度较大,但高浓度的盐会抑制根系总长度的增加,其中囊果碱蓬较梭梭和钠猪毛菜抑制的程度轻。盐分对3种植物的根系平均直径没有显著的影响,但有减小的趋势。在水培条件下,梭梭和囊果碱蓬的根系上、中、下部分布的较均匀,而钠猪毛菜的根系中部比上部和下部有显著的增加,盐分对每种植物的根系的分布没有显著的影响。3种植物的根毛与根系生长环境中的盐浓度没有明显相关性;3种植物之间,根毛的长度和密度有显著差异。从根系和根毛的形态特征可以推断：囊果碱蓬比梭梭和钠猪毛菜具有较强的抗旱性和耐极薄能力;梭梭的耐盐能力较其它2种植物差,囊果碱蓬的耐盐性最强。     

盐胁迫对翅碱蓬生长和渗透调节物质浓度的影响

盐胁迫环境抑制植物的生长,不同的盐分浓度对植物的抑制伤害存在差异.本文探讨了翅碱蓬(Suaeda heteroptera Kitagawa)对盐生环境的生理生态适应机制,研究其在不同盐浓度下,株高、根长、鲜重、干重等生长指标以及相对含水量、游离脯氨酸、可溶性糖和蛋白质含量的变化情况.结果表明:盐分对翅碱蓬幼苗的抑制作用...     

种植盐地碱蓬改良滨海盐渍土对土壤微生物区系的影响

利用盐生植物盐地碱蓬对天津河口滨海盐碱地进行生物修复,研究了其对土壤微生物区系的影响.结果表明,种植区碱蓬根系土壤的可溶性盐分与对照土壤相比下降了41%（重量法）和37%（电导法）;根系土壤的微生物数量明显增加,其中细菌、放线菌和真菌分别较对照增加了2.3倍、4.3倍和71倍,与对照相比均为显著性差异.根系微生物的耐盐性结果显示,随着土壤盐分的降低,根系微生物生长的最适盐度也随之降低,耐盐性较低的微生物种群已逐渐成为优势种群.系统发育分析表明,枯草杆菌属成为植物修复后土壤中的优势种群.     

8种盐生植物种子萌发特征与NaCl盐度的关系

耐盐植物的选育是盐渍土地生物改良的关键。通过对13个NaCl盐度梯度下，真盐生植物囊果碱蓬、盐地碱蓬、高碱蓬、盐角草、盐爪爪，泌盐植物大叶补血草、耳叶补血草、黄花补血草8种盐生植物的萌发试验，测定其种子发芽率、发芽势、发芽指数和相对盐害率等指标，研究不同NaCl盐度胁迫对其萌发特性的影响。结果表明：低盐度（50 mmol/L）能促进8种盐生植物的萌发；随着盐度的上升，盐角草、盐地碱蓬、囊果碱蓬、高碱蓬表现出较强的萌发耐盐性，发芽势和发芽指数优于其他植物；盐角草的萌发耐盐性最佳，在1000 mmol/L盐度下萌发率仍能达到54.0%。进一步通过S型生长曲线和线性模型分析得出，8种植物为对抗逆境大致分为"快速型"和"缓慢型"两种萌发策略；随盐度的升高，初始萌发时间和萌发高峰时间均不同程度的向后推迟。盐度≤200 mmol/L时，囊果碱蓬的萌发占据优势，其萌发速率大于其他植物，且差异显著；中盐度400 mmol/L左右时，盐地碱蓬和盐角草萌发最快，二者无显著差异；盐度≥600 mmol/L时，盐角草萌发速率较快，相比其他植物差异显著。泌盐植物的萌发耐盐适宜浓度和耐盐极限浓度均低于真盐生植物。8种植物均有作为氯化物为主盐渍土地区生物改良材料的潜力。     

滨海盐渍土壤中不同类型盐生植物富集镉的效应

为了利用被镉污染的滨海盐渍土壤,通过实验对比分析3种不同类型盐生植物对盐渍土中镉的富集效应,以期初步探明不同类型盐生植物在镉污染盐渍土壤修复中的效果。选择的3种盐生植物类型是:聚盐盐生植物,泌盐盐生植物和避盐盐生植物。通过温室盆栽实验,将植物在不同镉含量的盐渍土壤中种植培养60 d,测定和分析不同类型盐生植物对镉的生物浓缩因子、转移系数以及植株内地上部分和根部生物量和镉含量的变化。结果表明,不同镉含量的土壤对碱蓬和芦苇的生长影响较小,对二色补血草的生长影响较大。不同镉含量的土壤中,芦苇地上部分镉的生物浓缩因子变化差异不显著,并且其地上部分吸收镉的百分率较高。碱蓬和芦苇的转移系数大于二色补血草的转移系数,并且碱蓬的转移系数在不同镉含量的土壤中变化不显著;二色补血草的转移系数随着土壤中镉含量的增加而显著增大。3种盐生植物中,碱蓬最具修复镉污染盐渍土壤的潜力,这可能和它是聚盐盐生植物的生理类型有关。芦苇整个植株的地上部分富集镉的总量在3种植物中是最高的,因此,芦苇在镉含量较低时也可以做为镉污染盐渍土壤的修复材料。     

塔里木盆地10种藜科植物种子萌发对干旱胁迫的响应及其抗旱性评价

以塔里木盆地分布的碱蓬、硬枝碱蓬、盘果碱蓬、五蕊碱蓬、星花碱蓬、刺藜、盐节木、盐穗木、盐角草、白茎盐生草等10种藜科植物的种子为材料,利用PEG-6000模拟干旱,研究种子萌发对干旱胁迫的响应规律,并对抗旱性进行综合评价。结果表明:(1)随渗透势的下降,干旱胁迫加重,10种藜科植物种子的最终萌发率受到不同程度的抑制,平均萌发时间逐渐延长,种子的胚根长度受到抑制;解除干旱胁迫后,碱蓬、硬枝碱蓬、盘果碱蓬、盐节木、盐穗木、盐角草和白茎盐生草种子可恢复萌发;(2)10种藜科植物种子萌发期抗旱(PEG)极限值从大到小依次为:盐穗木白茎盐生草盘果碱蓬硬枝碱蓬盐角草五蕊碱蓬盐节木星花碱蓬刺藜碱蓬;(3)采用隶属函数法,选取种子最终萌发率、平均萌发时间、胚根长度和恢复萌发率为主要评价指标,进行抗旱性综合评价,10种藜科植物种子抗旱性由强到弱依次为:盐穗木白茎盐生草硬枝碱蓬盐节木盘果碱蓬星花碱蓬盐角草刺藜碱蓬五蕊碱蓬;抗旱性较强的盐穗木、白茎盐生草、硬枝碱蓬和盐节木的隶属函数加权平均值分别为0.915、0.793、0.762和0.737。     

秦王川湿地盐角草和盐地碱蓬种群的空间格局及其关联性

植物种群的空间格局及关联性是植物种群生态学特性对环境条件长期适应和选择的结果。在秦王川国家湿地公园盐沼湿地,利用群落学调查法和点格局分析法,按照盐角草(Salicornia europaea)植株密度依次设置高密度Ⅰ(800株·m~(-2))、中密度Ⅱ(400~800株·m~(-2))和低密度Ⅲ(400株·m~(-2))3个密度梯度样地,分析了盐角草和盐地碱蓬(Suaeda salsa)种群的空间格局及其关联性。结果表明:随着盐角草植株密度的减小,其植株高度和地上生物量呈逐渐减小的趋势(P0.05),盐地碱蓬的植株高度和地上生物量呈逐渐增大的趋势(P0.05);盐角草在样地Ⅰ和Ⅲ中呈不同尺度的聚集分布,聚集尺度由较小尺度向小尺度过渡,在样地Ⅱ中所有尺度上呈聚集分布;盐地碱蓬在样地Ⅰ所有尺度上呈聚集分布,在样地Ⅱ和Ⅲ的聚集分布由较小尺度向中尺度过渡;在样地Ⅰ中,盐角草和盐地碱蓬之间表现为负相关和不相关(P0.05),在样地Ⅲ中表现为不相关,在样地Ⅱ中从负相关过渡到正相关(P0.05)。湿地植物密度调控机制影响下的非对称竞争关系,引起群落优势物种发生更替,反映了植物适应环境变化的生活史策略。     

钠盐胁迫对藜科一年生草本植物生长和生物量分配的影响

选取河西走廊荒漠绿洲过渡带典型藜科一年生草本植物雾冰藜、刺沙蓬和白茎盐生草为研究对象,分析不同浓度盐分（NaCl和NaHCO₃,0、50、100、150、200 mmol/L）对3种藜科植物生长、繁殖和生物量分配的影响。研究结果表明：（1）钠盐胁迫下,3种藜科植物的存活率随盐浓度的增加呈下降趋势,雾冰藜和刺沙蓬在200 mmol/L NaCl和200 mmol/L NaHCO₃胁迫下无法存活或存活率极低,白茎盐生草在200 mmol/L NaHCO₃胁迫下无法存活;（2）钠盐胁迫显著抑制了刺沙蓬的生长和生物量积累,而一定浓度的盐分（50、100 mmol/L）可以促进雾冰藜和白茎盐生草的生长,较高浓度的盐分则抑制其生长;（3）3种植物的根冠比在钠盐胁迫下呈下降趋势,地上部生物量分配随盐浓度增加呈上升趋势,其中低盐胁迫下（50、100 mmol/L）繁殖分配比例增加明显,中高度盐胁迫下（150、200 mmol/L）茎、叶生物量分配比例增加显著,但根系生物量分配随盐分浓度增加而下降,这说明盐分胁迫下增加生物量在地上部的分配是藜科一年生草本植物应对盐胁迫的方式之一;（4） NaHCO₃的胁迫作用大于NaCl,3种植物中,白茎盐生草的耐盐性最强,而雾冰藜和刺沙蓬的耐盐能力较差。     

不同生境盐地碱蓬出苗及幼苗抗盐性比较

研究了盐胁迫对不同生境盐地碱蓬出苗、幼苗生长、离子积累和荧光参数等的影响.盐地碱蓬种子具有二型性,即外种皮柔软而半透明的棕色种子和外种皮坚硬的黑色种子.两种生境盐地碱蓬棕色种子的出苗率均明显高于黑色种子.与黑色种子相比,潮间带生境盐地碱蓬棕色种子在高盐环境下的出苗速率和出苗率高于盐碱地生境盐地碱蓬.各处理盐分浓度下,潮间带生境盐地碱蓬叶片的最大光化学效率(Fv/Fm)、PSⅡ实际光化学效率(ΦPSⅡ)和地上部分生物量均低于盐碱地生境盐地碱蓬.高盐浓度下,潮间带生境盐地碱蓬叶片Na+和Cl-含量低于盐碱地生境盐地碱蓬.这些特征可能是盐地碱蓬长期适应不同生境的结果.     

盐旱互作对不同生境盐地碱蓬种子萌发和幼苗生长的影响

研究了盐旱互作对潮间带和盐碱地生境盐地碱蓬棕色种子萌发、地上部生长和离子积累的影响。不同盐浓度预处理后,未萌发的种子风干后复水,其萌发率与对照相比没有降低,说明两种生境盐地碱蓬种子萌发期间都耐干湿交替。400mmol/LNaCl溶液浇灌的潮间带生境盐地碱蓬幼苗在第3次干旱处理后萎蔫幼苗的百分比高于盐碱地生境的,而复水后正常幼苗的百分比却相反。400mmol/LNaCl溶液处理下,第3次干旱处理复水后,盐碱地生境盐地碱蓬幼苗地上部离子含量(主要是Na+和Cl-)高于潮间带生境的。表明在干旱情况下,盐碱地生境盐地碱蓬幼苗能积累更多的无机离子,降低渗透势,提高根系吸收水分的能力。上述结果说明,盐碱地生境盐地碱蓬幼苗较潮间带生境盐地碱蓬幼苗更耐盐与干旱的交互作用。     

Stoichiometric variation of halophytes in response to changes in soil salinity

• Variation in soil salt may change the stoichiometry of a halophyte by altering plant ecophysiology, and exert different influences on various plant organs, which has potentially important consequences for the nutrition of consumers as well as nutrient cycling in a saline ecosystem.
• Using a greenhouse pot experiment, we investigated the effect of salinity variability on the growth and stoichiometry of different organs of Suaeda glauca and Salicornia europaea – two dominant species of important ecological and economic value in the saline ecosystem.
• Our results showed that appropriate salt stimulated the growth of both species during the vigorous growth period, while high salt suppressed growth. Na significantly increased with increased salt in the culture, whereas concentrations of other measured elements and K:Na ratio for both species significantly decreased at low salt treatments, and became more gradual under higher salt conditions. Furthermore, with the change of salt in culture, variations in leaf (degenerated leaf for S. europaea, considered as young stem) stoichiometry, except N:P ratio, were large and less in stems (old stems for S. europaea) than in roots, reflecting physiological and biochemical reactions in the leaf in response to salt stress, supported by sharp changes in trends.
• These results suggest that appropriate saline conditions can enhance biological C fixation of halophytes; however, increasing salt could affect consumer health and decrease cycling of other nutrients in saline ecosystems.

     

Incorporating thresholds into understanding salinity tolerance: A study using salt‐tolerant plants in salt marshes

Although salinity in many ecosystems such as salt marshes can be extremely high, an asymmetry in salinity range between experimental studies (relatively narrow) and field conditions (potentially broad) has strongly affected current understanding of plant salinity tolerance. To improve understanding, it is thus important to examine plant tolerances over a broad range of salinities and identify potential tolerance thresholds. We examine tolerances of two widely distributed marsh plants, Suaeda salsa and Salicornia europaea, to salinities ranging from 0 to 100 g/kg, and determine survival, above‐ and belowground biomass after 8 weeks of salinity treatment. Both species, Sa. europaea in particular, have much broader salinity tolerances than other plants previously examined, (2) plant survival, above‐ and belowground biomass have remarkably different responses to salinity, and (3) there is a nonlinear, threshold response of S. salsa to salinity, above which S. salsa survivorship drastically decreases. These results provide multiple important insights. Our study suggests that the potential for using these halophytes to revegetate and restore salt‐affected land may be greater than previously thought, and highlights the importance of studying multiple plant responses. Importantly, our study calls for a better integration of thresholds into understanding plant salinity tolerances and their applications.     

黄河三角洲重度退化滨海湿地盐地碱蓬的生态修复效果

采用翻地、施肥和芦苇碎屑培肥等土壤改良方法,利用盐地碱蓬在黄河三角洲重度退化区进行生态修复实验研究。结果表明:重度退化湿地土壤改良后,盐地碱蓬能够成功生长,3种改良方法均可有效的降低重度退化盐碱地的土壤含盐量,改良后的土壤Na离子含量均显著低于对照组,土壤脲酶和磷酸酶活性与对照相比有了显著的提高,表明改良后土壤肥力得到了改善。3种改良方法比较,培肥处理组土壤Na离子含量显著低于其他两种方法;盐地碱蓬生物量达到最高值,说明增加有机物的培肥方法可有效的改良重度退化盐碱湿地土壤,达到较为理想的生态修复预期效果。     

The antioxidant system in Suaeda salsa under salt stress

ABSTRACTSuaeda salsaL. is a typical euhalophyte and is widely distributed throughout the world. Suaeda plants are important halophyte resources, and the physiological and biochemical characteristics of their various organsand their response to salt stress have been intensively studied. Leaf succulence, intracellular ion localization, increased osmotic regulation and enhanced antioxidant capacities are important responses for Suaeda plants to adapt to salt stress. Among these responses, scavenging of reactive oxygen species (ROS) is an important mechanism for plants to withstand oxidative stress and improve salt tolerance. The generation and scavenging pathways of ROS, as well as the expression of scavenging enzymes change under salt stress. This article reviews the antioxidant system constitute of S. salsa, and the mechanisms by which S. salsaantioxidant capacity is improved for salt tolerance. In addition, the differences between types of antioxidant mechanisms in S. salsaare reviewed, thereby revealing the adaptation mechanisms of Suaeda to different habitats. The review provides important clues for the comprehensive understanding of the salt tolerance mechanisms of halophytes.KEYWORDS: Suaeda salsa, halophyte, salt-tolerance mechanism, oxidative stress, antioxidant system     

盐土和沙土对新疆常见一年生盐生植物生长和体内矿质组成的影响

选用古尔班通古特沙漠南缘荒漠-绿洲交错带常见的一年生盐生植物盐角草、刺毛碱蓬、叉毛蓬、猪毛菜和碱地肤为材料,比较了它们在原状盐土和沙土中的生长及体内矿质元素组成的差异。结果表明：① 原状盐土0—100 cm各土层的pH值低于沙土,但电导率和含水量明显高于沙土;② 原状盐土中生长的植物干重是沙土中生长植物干重的7—118倍,后者的根冠比是前者的2—6倍。③ 体现肉质化程度的地上部含水率为52%—81%,中低耐盐植物含水率在两种土壤中差异显著,强耐盐植物差异不显著;④ 5种一年生盐生植物地上部氮浓度为11—34 g/kg,在有效氮含量高的盐土上植物氮浓度也高;磷浓度为1—4 g/kg,在有效磷高的盐土上植物磷浓度也较高（盐角草除外）;但沙土中的植物地上部钾浓度明显高于盐土中植株的地上部钾浓度,这与两种土壤在0—60 cm土层中的钾浓度差异相反;⑤ 尽管原状盐土0—100 cm土层中的水溶性钙、镁、钠、氯、硫浓度显著高于沙土,盐土与沙土中生长的植物地上部钠、水溶性氯和硫的浓度比值远远低于土壤中的相应元素浓度的比值,甚至盐土中的植株钙、镁浓度等于或显著低于沙土中生长的植物。表明盐土不仅影响一年生盐生植物的生长,也显著影响这些植物对矿质元素的吸收和累积。一年生盐生植物能够选择性吸收不同生境中的矿质元素。本研究期望为进一步深入研究盐生植物耐盐的适应机制提供依据,也可为植物修复盐碱土的品种选择提供参考。     

The effect of plant growth regulators, nitric oxide, nitrate, nitrite and light on the germination of dimorphic seeds of Suaeda salsa under saline conditions

Suaeda salsa, a leaf succulent shrub in the family Chenopodiaceae, is one of the most important halophytes in China. Suaeda salsa produces dimorphic seeds (soft brown seeds and hard black seeds). Seeds of S. salsa were collected from the coastal salt flats near Huanghua City, China. Experiments were conducted to determine the salinity-alleviating effect of plant growth regulators, nitric oxide, nitrate, nitrite and light on the germination of dimorphic seeds of S. salsa. Brown seeds had a higher germination rate than black seeds in all experiments. Black seeds were more sensitive to salt in the absence of light in comparison to brown seeds. Brown seeds absorbed water more quickly in comparison to black seeds and were found to be more tolerant of salt stress. Our results showed that 1-aminocyclopropane-1-carboxylate (ACC, the immediate precursor of ethylene), nitrite, GA₄ and BA improved seed germination in the presence of salt. However, nitrate, GA₁, GA₃ failed to alleviate salt stress. ABA inhibited seed germination and seedling growth. Possible mechanisms involved in the alleviation of salt stress in S. salsa seeds and the ecological adaptation of the seeds to the environment are discussed.     

Heavy metal content in halophytic plants from inland and maritime saline areas

We investigated the concentration of Aluminium (Al), Cobalt (Co), Chromium (Cr), Copper (Cu), Iron (Fe), Manganese (Mn), Nickel (Ni) and Zinc (Zn) in the root and aboveground organs of four halophyte species (Salicornia europaea, Suaeda maritima, Salsola soda and Halimione portulacoides), as well as in the soil from maritime and inland saline areas. The aim of our research was to evaluate the capability of some halophyte species to absorb different heavy metals and to detect differentiation of heavy metal accumulation within populations from inland and maritime saline areas. Generally, the plant roots had significantly higher concentrations of metals when compared to stems and leaves. Zinc was the only metal with concentrations significantly higher in the leaves than in the root and stem. Populations from maritime saline areas had higher trace root and stem metal concentrations than populations from inland saline areas. Excepting zinc, populations from inland saline areas had higher heavy metal concentrations in the leaves. The factors that affected metal accumulation by halophytes included the percentage of salt in the soil. We also discuss the potential use of these halophytes in phytoremediation.     

Significance of Na<Superscript>+</Superscript> and K<Superscript>+</Superscript> for Sustained Hydration of Organ Tissues in Ecologically Distinct Halophytes of the Family Chenopodiaceae

The contents of Na⁺, K⁺, water, and dry matter were measured in leaves and roots of euhalophytes Salicornia europaea L. and Climacoptera lanata (Pall.) Botsch featuring succulent and xeromorphic cell structures, respectively, as well as in saltbush Atriplex micrantha C.A. Mey, a halophyte having bladder-like salt glands on their leaves. All three species were able to accumulate Na⁺ in their tissues. The Na⁺ content in organs increased with elevation of NaCl concentration in the substrate, the concentrations of Na⁺ being higher in leaves than in roots. When these halophytes were grown on a NaCl-free substrate, a trend toward K⁺ accumulation was observed and was better pronounced in leaves than in roots. Particularly high K⁺ concentrations were accumulated in Salicornia leaves. There were no principal differences in the partitioning of Na⁺ and K⁺ between organs of three halophyte species representing different ecological groups. At all substrate concentrations of NaCl, the total content of Na⁺ and K⁺ in leaves was higher than in roots. This distribution pattern persisted in Atriplex possessing salt glands, as well as in euhalophytes Salicornia and Climacoptera. The physiological significance of such universal pattern of ion accumulation and distribution among organs in halophytes is related to the necessity of water absorption by roots, its transport to shoots, and maintenance of sufficient cell water content in all organs under high soil salinity.     

盐和重金属复合胁迫对翅碱蓬萌发与生长的影响及调控措施

为探究Zn、Cu与盐复合胁迫对翅碱蓬(Suaeda salsa)萌发生长的影响机理及其调控措施,以翅碱蓬为研究对象,采用水培试验方法,测定Zn、Cu和盐复合胁迫条件下翅碱蓬种子发芽率、萌发速率和幼苗渗透调节物质含量等指标,分析1.5 mg/L吲哚乙酸(IAA)、100 mg/L赤霉素(GA)和0.3%硝酸钾(KNO₃)处理对Zn、Cu与盐复合胁迫条件下翅碱蓬萌发与生长的影响。结果表明：(1) Zn、Cu与高盐复合胁迫极显著降低翅碱蓬种子的发芽率,中高浓度的Zn、Cu与盐复合胁迫极显著降低翅碱蓬种子的萌发速率,Zn、Cu和盐复合胁迫对翅碱蓬种子的萌发生长影响表现为低促高抑效应,影响因子间存在明显的协同效应;(2)Zn、Cu和盐复合胁迫条件下,随着盐浓度的升高,翅碱蓬幼苗体内过氧化氢酶(CAT)、过氧化物酶(POD)和超氧化物歧化酶(SOD)3种抗氧化酶活性呈先升高后降低的变化趋势,Zn、Cu和高盐复合胁迫使翅碱蓬幼苗体内丙二醛(MDA)含量增加近2.5倍;(3)1.5 mg/L IAA溶液浸种12 h可显著提高Zn、Cu与高盐复合胁迫条件下翅碱蓬种子的发芽率和萌发速...