共查询到17条相似文献,搜索用时 297 毫秒
1.
以秋茄(Kandelia candel L.Druce)幼苗为材料,在全日潮海区广西英罗湾开展为期5个月的野外梯度淹水胁迫实验。3座平台作为重复,每座设置8个梯度,相邻高程组间的高度相差10cm。实验5个月后测定幼苗的生长状况和一些生理指标。结果表明:秋茄幼苗的生长高度、节数、叶数和大根数这4个外部形态特征指标的最大值均出现在360cm高程组。生长高度、节数、叶数的曲线较为一致,幼苗大根数的略有不同,但总体上可看出太低的高程均不利于这4个指标的增长。叶面积对淹水胁迫的反应与叶数一致,但高程组之间的差异更大。叶绿素含量则表现长时间淹水胁迫促进含量增高。在任一高程组,秋茄幼苗各新生器官生物量分配均表现为:茎>根>叶。各新生器官及全株生物量的最大值出现在360cm高程组,它们的干重曲线表现比较一致。幼苗根系中的活性氧清除酶类活性均高于叶片。根系中SOD酶和POD酶的分布规律较为一致,都以360cm高程组的活性最高。叶片中SOD酶和POD酶的变化则相反,叶片SOD酶随高程增大而降低,POD酶则随高程增大而增大。根系中活性氧清除酶类活性的水平与幼苗全株生物量的关系均呈显著相关,叶片中的则无此相关性。360cm及以上高程组幼苗全部存活,较低高程组有部分死亡。综合本文实验结果,可初步判断北部湾沿海秋茄造林的滩涂高程不宜低于当地平均海平面。 相似文献
2.
调控淹水对互花米草生理影响的研究 总被引:4,自引:1,他引:3
调控淹水是控制入侵物种互花米草(Spartina alterniflora)的物理措施之一。本项实验应用盐度为8的淹水,研究了互花米草生长期间的相关生理和生长参数对0、25、50、75和100cm梯度淹水胁迫的响应。实验结果表明,互花米草在25cm淹水胁迫下,其株高、叶片中叶绿素a和叶绿素b含量均显著高于同期对照组(p0.05);在50cm及以上的淹水胁迫下,互花米草的株高、叶片中叶绿素a和叶绿素b含量、可溶性糖含量均显著低于同期对照组(p0.05),生长季末无开花结穗。研究表明,低水位(50cm)淹水胁迫促进了其营养生长,对生殖生长无显著影响(p0.05);而高水位(≥50cm)淹水胁迫能有效地抑制互花米草营养和生殖生长,是控制互花米草扩散的有效水位。 相似文献
3.
中国多数红树林陆地边缘存在着大量的养虾池塘。这些养虾池塘可通过:(1)换塘外排废水,(2)清塘直排污泥影响周围的红树林。本研究共包含两个实验,来探讨这两种类型的排污对秋茄幼苗生长的影响。实验一模拟虾池常规换塘情况,研究换塘废水对秋茄幼苗生长的影响。实验二设置四种虾池清塘污泥沉积厚度(0 cm,2 cm,4 cm,8 cm),研究虾池清塘污泥的累积效应对秋茄幼苗生长的影响。结果如下:在5,15和25三种盐度下,虾池换塘废水未对秋茄生长指标造成显著影响;而清塘污泥对秋茄生长的影响与其沉积厚度有关,大多数生长参数在污泥沉积厚度为4 cm时呈现最大值。秋茄幼苗在适量的沉积厚度下加速了生长,且本实验秋茄幼苗对虾池清塘污泥的耐受性为沉积厚度8 cm。 相似文献
4.
为了探讨不同鲜重秋茄胚轴的表型性状和营养成分含量差异, 及其对幼苗生长的影响, 确定浙江省秋茄胚轴质量标准, 提高造林质量, 本研究采集4.0~5.0g、5.0~6.0g、6.0~7.0g、7.0~8.0g、8.0~9.0g、9.0~10.0g共6组不同鲜重的秋茄胚轴, 测定其表型性状、营养成分含量和幼苗生长性状。结果表明, 胚轴长度、横径、顶径随着胚轴鲜重的增加而显著增加。不同鲜重等级胚轴间的氮(N)、磷(P)、钾(K)和有机碳百分含量差异不显著, 但随着秋茄胚轴鲜重增加, 淀粉百分含量显著减小。单根胚轴的营养成分总含量随胚轴鲜重的增加而显著增加。胚轴的C:N、N:P和C:P值在鲜重7.0~8.0g等级时均显著高于其他鲜重等级。幼苗生长高、基径、叶片数及生物量随胚轴鲜重的增加而显著增加, 但在5.0~6.0g、6.0~7.0g和7.0~8.0g等级间幼苗茎干重、叶干重、净生物量和总生物量差异不显著。胚轴表型性状与幼苗生长指标之间的相关性均呈显著水平(P<0.05), 除胚轴P总含量与生长高之间的相关性不显著外, N、K、Na、有机碳、淀粉总含量与幼苗生长指标之间均呈显著正相关关系(P<0.05)。主成分分析和综合评价结果表明鲜重7.0g以上的胚轴优于其他鲜重的胚轴。秋茄幼苗生长高和净生物量与胚轴鲜重的回归分析R2分别为0.978和0.951, P均小于0.01。胚轴鲜重大于5.22g时, 幼苗生长高急剧增加; 鲜重大于8.74g时, 幼苗净生物量增长加快。因此, 秋茄胚轴鲜重越大, 营养物质含量越高, 越有利于幼苗生长。在浙江省的秋茄林种植中, 应优先选择鲜重7.0g以上的胚轴。 相似文献
5.
采用掌状海带(Laminariadigitata)幼苗为实验材料,研究了不同温度(3、8、13、18℃)对其生长、抗氧化系统及叶绿素荧光参数的影响。测定主要参数有:相对生长速率(RGR)、可溶性蛋白、超氧化物歧化酶(SOD)、过氧化氢酶(CAT)、丙二醛(MDA)、PSII最大荧光产量(Fv/Fm)、最大相对电子传递速率(r ETRmax)结果表明:(1)掌状海带幼苗的RGR在13℃下达最大值,与3℃处理组对比呈显著性差异(P0.05)。(2)3℃处理4 h或18℃处理36 h对掌状海带幼苗SOD、CAT活性有显著影响。(3)3℃培养条件下,掌状海带幼苗的Fv/Fm、r ETRmax值显著低于对照组(13℃);18℃处理组的Fv/Fm值随着胁迫时间的延长而降低,其r ETRmax值在胁迫4 h后达最大;处理24 h,8℃处理组的r ETRmax值显著高于其他处理组。 相似文献
6.
重金属Cu2+胁迫对红树植物秋茄幼苗生长及某些生理特性的影响 总被引:1,自引:0,他引:1
为揭示铜污染对红树植物的毒性效应和植物的抗性机制,作者研究了红树植物秋茄(Kandelia obovata)幼苗在不同质量浓度的Cu2+(0,0.5,5,50,100,200 mg/L)离子胁迫90 d后,幼苗生长、部分生理指标的变化以及Cu2+在幼苗体内的累积情况。测定的主要参数有:幼苗的主根长度、侧根数目、生物量、叶片的光合速率、色素含量、可溶性糖和蛋白含量及抗氧化酶系活性。研究结果表明:当Cu2+浓度范围在(0.5~200 mg/L)时,主根长度、侧根数目、生物量、叶片的光合速率、色素含量、可溶性糖和蛋白含量均呈降低趋势;根系POD活性持续升高,叶片和根系的SOD和CAT活性呈先升后降趋势;根系MDA含量在整个Cu2+胁迫浓度范围保持相对稳定,叶片MDA含量在高浓度Cu2+胁迫下增加;Cu2+主要累积在根部而向地上部分转运的较少。根据不同浓度的Cu2+离子对秋茄幼苗生长及生理特性影响,秋茄幼苗对Cu2+胁迫的耐受质量浓度范围为5~50 mg/L。 相似文献
7.
为研究极北海带幼苗在温度条件下的生理、生态适应性,作者开展极北海带幼苗(1~15 cm)在不同温度下的相对生长速率以及光系统II最大荧光产量(Fv/Fm)、光合作用和呼吸作用等生长和生理响应研究,探讨其最大表观光合速率、饱和光强(Isat)和光补偿点(Ic)等参数。得出以下结论:(1)极北海带幼苗生长的适宜温度范围为9~15℃,温度上限为21℃;(2)极北海带幼苗在21℃胁迫24h以上,可导致其光合系统II产生不可逆损伤;(3)叶片长度对其幼苗的Fv/Fm有显著影响,较大的幼苗相对耐受高温;(4)在5~17℃范围内,极北海带幼苗Ic为4.6~15.4μmol/(m2·s), Isat为52.4~100.3μmol/(m2·s);(5)低温条件下,极北海带幼苗可适应更弱的光照,但相对不耐强光;较大的极北海带幼苗则相对耐强光,其适应更弱光照。本研究结果可为极北海带的人工育苗及养殖提供参考。 相似文献
8.
为了探究经过15年种间竞争后的外来无瓣海桑(Sonneratia apetala)与乡土红树植物秋茄(Kandelia obovata)的群落现状与发展趋势,采用样方法对福建省厦门市同安湾典型红树林群落特征开展实地研究。结果表明:(1)无瓣海桑是无瓣海桑群落中的优势种,而秋茄仅在该群落北侧与无瓣海桑少量混交,秋茄+无瓣海桑群落为种植秋茄和无瓣海桑的茂密混交林;(2)调查幼苗天然更新情况中发现,在两个群落中秋茄均有幼苗自然生长,但均未发现无瓣海桑幼苗;(3)生长状况的调查发现,无瓣海桑长势较秋茄差,其倒伏数量和倒伏程度明显比秋茄严重;(4)无瓣海桑在秋茄+无瓣海桑群落中的生长状况优于在无瓣海桑群落,倒伏程度较轻。综上可见,无瓣海桑在福建省厦门市该研究样地及其周边更新成林和扩散困难,未有入侵秋茄群落的优势;无瓣海桑在风浪环境下,较秋茄更易出现倒伏和枯死等不可逆生长现象;红树林种植过程中采用"外来种+乡土种"的模式,可提高整个林分的抗风浪能力,但需注意种植布局规格的合理性,可避免外来速生快长种与乡土种紧邻混交产生较大的种间竞争,减小对乡土种生长的影响。 相似文献
9.
本研究利用人工潮汐系统(每天淹水0、6、12和18h), 研究了红海榄幼苗根系呼吸代谢对水淹胁迫的响应。结果表明, 每天淹水6h对红海榄幼苗的生长影响不大, 但随着水淹时间的延长, 红海榄幼苗的生长显著受到抑制。水淹时间的延长同样明显抑制了红海榄幼苗根系的产能效率, 且根系三羧酸循环的有氧呼吸速率、三磷酸腺苷含量以及琥珀酸脱氢酶和苹果酸脱氢酶活性最小值均出现在每天水淹18h处理组中。相反, 水淹胁迫下红海榄幼苗根系乙醇脱氢酶、乳酸脱氢酶活性以及乙醇和乳酸含量都呈上升的趋势。综上, 尽管无氧呼吸可一定程度上缓解三羧酸循环受阻所导致的产能匮乏, 但是过度的水淹胁迫仍会扰乱红海榄幼苗正常的生长和代谢, 导致三磷酸腺苷产能效率的降低以及无氧发酵代谢产物的积累。 相似文献
10.
干出对潮间带不同垂直位置海藻的生长及光合作用速率的影响 总被引:3,自引:0,他引:3
研究了青岛潮间带地区的4种海藻:叉枝藻(Gymnogongrus flabelliformis Harvey,高潮带)、孔石莼(Ulva pertusa kjellm,中潮带)、缘管浒苔(Enteromorpha linza(L.)J.Agar-dh,中潮带)和扁江蓠(Gracilaria textorii(Suring)De Toni,低潮带)在干出状态下的脱水率及每天干出0、0.5、1、2、4和6h下的生长和光合作用。结果表明:干出状态下缘管浒苔的脱水率最小,因为它具中空管状构造;其余3种海藻的脱水率依次为扁江蓠>孔石莼>叉枝藻,但三者差异不大。与水中对照(0h)相比,高潮带的叉枝藻在不同干出处理下的生长和光合作用速率下降(P<0.05)。中潮带的孔石莼在一定干出时间内促进其生长和光合作用(P<0.05),缘管浒苔则未见显著的促进作用。低潮带的扁江蓠在干出处理下几乎不能生长和存活。 相似文献
11.
Influence of waterlogging time on the growth of Kandelia candel(L.) Druce seedlings grown for 70 d in the artificialtidal tanks‘ simulated semidiurnal tide under greenhouse is studied. Sand and soil act as the substrate and artificial seawater with salinity of 15 is used in cultivation. Shorter waterlogging time (inundated for about 2 ~ 4 h) promotes the growth of K candel seedlings, while longer time (inundated more than 8 h) or no waterlogging (0 h) inhibits their growth. The number and length of aerating roots increase with the increase of waterlogging time. Under existing conditions, the optimal waterlogging time for the growth of K. candel seedlings is about 2 ~ 4 h in every tide cycle. Compared with other treatments, the 2 h sanded treatments obtain the highest biomass of seedlings, have the lowest mass loss ofhypocotyl and broaden the photosynthetic area by increasing the area per leaf after 70-d cultivation. And the soil treatments have the similar tendency. However, waterlogging for 8h in every tide cycle is critical for normal development of seedlings.K. candel seedlings are highly tolerant to waterlogging and a proper waterlogging is beneficial to the growth of K. candel seedlings. 相似文献
12.
Influence ofwaterlogging time on the growth ofKandeliacandel(L.) Druce seedlings grown for 70 d in the artificial-tidal tanks' simulated semidiumal tide under greenhouse is studied. Sand and soil act as the substrate and artificial sea-water with salinity of 15 is used in cultivation. Shorter waterlogging time (inundated for about 2 ~ 4 h) promotes thegrowth of K. candel seedlings, while longer time(inundated more than 8 h) or no waterlogging(0 h) inhibits theirgrowth. The number and length of aerating roots increase with the increase ofwaterlogging time. Under existing condi-tions, the optimalwaterlogging time for the growth of K. canoel seedlings is about 2 ~ 4 h in every tide cycle. Com-pared with other treatments, the 2 h sanded treatments obtain the highest biomass of seedlings, have the lowest massloss ofhypocotyl and broaden the photosynthetic area by increasing the area per leaf after 70-d cultivation. And the soiltreatments have the similar tendeney. However, waterlogging for 8 h in every tide cycle is critieal for normal develop-ment of seedlings. K. candel seedlings are highly tolerant to waterlogging and a proper waterlogging is beneficial to thegrowth ofK. candel seedlings. 相似文献
13.
Ultrasonically tagged flounders were tracked in the estuary of the River Bann, Northern Ireland, for periods of between 2 and 12 h (11 fish for a total of 92 h and 2·5 km), during their summer residence. Positions were determined by triangulation with two receivers.All fish remained within 400 m of the release point; on average flounders moved about 270 m during one tidal cycle, equivalent to 830 body lengths, or just over 1 body length per minute. Movements were most likely at dusk, but other parameters were not contingent upon time of day, although no data were gathered at dawn. Frequency, direction, distance, speed and duration of movement and turn rate were all significantly contingent upon state of the tide. The movement data are interpreted in terms of feeding behaviour, supported by results from other parts of the study. At high tide flounders made active but meandering searches for food on the inundated mudflats. Similar but faster searches heading downstream on falling tides reflected (a) completion of feeding while littoral invertebrates were still available and (b) avoidance of stranding. Flounders made infrequent but long and linear passages downstream at low tide, when they tended to bury themselves at the edge of the main channel where there was little food. Subsequently, the fish followed the rising tide upstream so that the cycle of movements kept most fish in the same area of the estuary in the short term. It is suggested that tolerance of changing salinities enables flounders, more than other flatfish species, to exploit dense populations of estuarine intertidal invertebrates as food. 相似文献
14.
不同盐胁迫时间下秋茄幼苗叶片膜脂过氧化作用的研究 总被引:16,自引:1,他引:15
对长时间和短时间盐胁迫下红树植物秋茄(Kandelin candel)叶片膜脂过氧化作用、叶绿素含量、电解质渗透率、叶片肉质化程度等与盐胁迫强度之间的关系进行了对比研究.结果表明,短时间盐胁迫和长时间盐胁迫下秋茄叶片超氧化物歧化酶(SOD)活性、丙二醛(MDA)含量、叶片肉质化程度等随盐胁迫强度的提高而有不同的变化规律.在短时间盐胁迫下,随基质盐度的提高,SOD活性(fw)变化呈“U”型,在盐度15~20处叶片SOD活性最低,MDA含量变化不明显,电解质渗透率和叶片肉质化程度先升高而后下降,在盐度20处最高;在长时间盐胁迫下,SOD活性先随盐度的提高而提高,当盐度高于10时又随盐度的提高而下降,而MDA含量随盐胁迫程度的提高而下降,电解质渗透率和肉质化程度却上升,不同盐胁迫时间下红树植物秋茄具有不同的耐盐机制.膜脂过氧化不是盐胁迫下秋茄叶片膜损伤的主要原因. 相似文献
15.
2021年珠江东江流域遭遇1956年以来最严重干旱,上游控制断面博罗站年均径流较多年平均减少了64.5%。在此极端干旱条件下,2021-2022年枯水期珠江口东江三角洲遭遇了有记录以来的最强咸潮上溯,严重威胁到区域供水安全。本文基于2009-2022年东江三角洲各水厂含氯度数据,利用交叉小波和小波相干分析识别了咸潮上溯与径流、潮汐、外海含氯度及海平面波动等影响因素间的相位关系与共变周期,揭示了极端干旱条件下东江三角洲咸潮上溯的主控因素及含氯度峰值交替变化的原因。研究发现,2021-2022年枯水期东江三角洲咸潮上溯主要影响因素为潮汐与伶仃洋湾内含氯度,其次为外海海平面波动,三种因素对东江三角洲咸潮上溯影响的时间尺度相互交织。5~9 d的周期变化主要受外海海平面波动影响;14.8 d的变化周期主要由大小潮及伶仃洋湾内含氯度控制;28~32 d的周期变化主要影响因素为伶仃洋湾内含氯度。东江三角洲含氯度峰值交替变化的原因主要为伶仃洋湾内含氯度与潮汐间存在相位差 (相关系数r=0.73,显著性水平P<0.01),并叠加外海海平面波动上升的影响(r=0.31,P<0.01)。本文可为东江三角洲咸潮预报及流域调度提供一定借鉴。 相似文献
16.
This study aimed to establish the effects of waterlogging, salinity and light on the early development of mangroves. Seedlings of Bruguiera gymnorrhiza (L.) Lamk. and Heritiera littoralis Dryand were exposed to 12 weeks of waterlogging, during which time growth and photosynthesis were measured every two weeks. The salinity of the water inundation ranged from fresh water to full-strength sea water (salinity 35). Seedlings were exposed to either full sunlight of 1 500 µmol photon m–2 s–1 (SD 397) at midday or shade conditions of 325 µmol photon m–2 s–1 (SD 40) of light at midday, to explore whether the plants would be differently affected by prolonged waterlogging in increased salinities and under different light conditions. Heritiera littoralis was more sensitive to waterlogging, salinity and light, displaying a least relative growth rate of 0.127 g g–1 week–1 (SE 0.032) under shade, and 0.025 g g–1 week–1 (SE 0.021) in full light; while under shade, photosynthesis continued only in fresh water, but photosynthetic yield decreased from 0.7 to 0.4 with increasing duration of waterlogging. By 12 weeks, all H. littoralis seedlings treated with any saltwater mixture had died. Bruguiera gymnorrhiza seedlings maintained a moderate rate of photosynthesis throughout inundation in both shade and full light, with yields of 0.7 and 0.3, respectively. Furthermore, B. gymnorrhiza survived waterlogging in up to 66% seawater, and maintained comparable relative growth rates of 0.164 g g–1 week–1 (SE 0.066) with 0.083 g g–1 week–1 (SE 0.065) and 0.074 g g–1 week–1 (SE 0.036) with 0.052 g g–1 week–1 (SE 0.037) under shade and in full light between fresh water and the highest salinity conditions, respectively. These results suggest that B. gymnorrhiza is broadly tolerant, making it a potential candidate species for restoring vulnerable mangrove forests. 相似文献
17.
Vast declines in Zostera marina seagrass beds demand effective methods of rehabilitation. In this study, we developed a practical method by reducing salinity to induce seed germination followed with recovering salinity to facilitate seedling production of Z. marina. The results showed that Z. marina seeds collected from natural seawater(salinity 30) were induced to germinate at reduced salinities. Percent germination(GR) was higher and mean-time-to-germinate(MTG) was shorter at lower salinities. The highest GR and shortest MTG occurred at salinity 0(deionized freshwater). After germination in freshwater, seeds could develop into seedlings at salinities5–30 and continue the growth. Viability or development of germinated seeds was not significantly different during the 40 d of post-germination incubation at salinities 5–15 after 1–20 d of germination in freshwater. However,during the process of translating germinated seeds from salinity 0 and 5 to salinity 30, reducing the gradients of post-germination acclimation facilitated more seeds forming seedlings in less time. On average, after 60 d of static incubation, including 20 d in freshwater for germination followed with immediate shift to salinity 5 and increasing to salinity 30 at increment of 5 every two days until cultivation at constant salinity 30, 33% of Z. marina seeds produced healthy seedlings. The results indicate that the salinity-manipulation based method of artificial germination and seedling production is practical and effective in supporting rehabilitation of Z. marina bed. 相似文献