植物δ~(13)C与土壤盐分的关系研究综述

稳定碳同位素组成(δ13C)综合反映了植物的生理生态特征,可用于研究植物生理与生态环境之间的关系。大多数研究认为植物δ13C值随盐度增加而变重。盐分主要通过影响C3植物叶片气孔传导、光合作用等生理活动,使植物δ13C值发生变化。而有些植物为适应盐分胁迫可能发生光合途径的转换,使C3代谢转换成C4或CAM代谢,导致植物某些器官的δ13C值发生变化,而植株整体δ13C值变化较小。由于植物δ13C与土壤盐分的关系还受其他环境因素的影响以及室内试验的有限性,因此进一步扩大盐度梯度范围,延长盐处理时间以及开展大田试验显得很有必要。     

浙江省山区河道护坡乔木植物枫杨耐淹性研究

[目的]对浙江省山区河道护坡植物枫杨进行耐淹性研究。[方法]分别测定生长在河岸和河道水流中的枫杨叶片的气孔导度和膜保护酶活性。[结果]枫杨树种在淹水条件下气孔导度比旱生条件下增加了52.89%,SOD和POD活性分别减少了17.1%和25.8%,MDA含量增加了18.48%。[结论]枫杨植株在山区河道消落带中具有较强的耐淹性。     

四倍体刺槐与刺槐光合速率日变化差异

为了解四倍体刺槐与刺槐光合生理生态特性的差异,及生长的适宜生态条件,培育出优质高产的林木,采用LI—6400便携式光合测定系统对四倍体刺槐和刺槐的光合生理特性日变化进行了研究。结果表明:①四倍体刺槐的净光合速率(Pn)日变化呈"单峰"型曲线,最高峰值出现在10:30左右;刺槐的Pn日变化呈"双峰型"曲线,有明显的"午休"现象,第一个峰出现在9:00左右,第二个峰出现在15:00左右,第一个峰值明显高于第二个峰值。②Tr在很大程度上决定于气孔的活动状态。③四倍体刺槐的光合能力>刺槐。④四倍体刺槐与刺槐的Pn与Gs成极显著正相关,与Tr成显著性正相关。⑤刺槐对环境的适应能力强于四倍体刺槐。     

大气CO2浓度升高对茶树光合生理特性的影响

通过对不同大气CO2浓度水平下的茶树观测试验,研究了大气CO2增长对茶树新梢叶片净光合速率、蒸腾气孔导度、水分利用效率、叶绿素含量和营养元素含量等光合生理特性的影响。结果表明,在大气CO2浓度为550、750μmol·mol-1时,比正常大气CO2水平下茶树叶片日平均净光合速率提高17.9%和25.8%,并缓解和消除了光合午休现象;茶树叶片气孔导度降低7.6%和13.0%,蒸腾速度稍有下降,水分利用效率提高21.6%和35.8%;同时使茶树新梢叶绿素a、叶绿素b、叶绿素总量和类胡萝卜素含量分别提高12.8%～18.4%、14.0%～22.0%、13.1%～19.4%和17.2%～20.1%,但叶绿素a与叶绿素b的比值有所降低。大气CO2浓度的升高使新梢营养元素N、K、Ca含量有不同程度降低,而Mg、Fe、Zn、Mn、Cu含量有所增加。     

Regulation of root-to-leaf Na and Cl transport and its association with photosynthetic activity in salt-tolerant soybean genotypes

ABSTRACT

Soil salinity is a major constraint to sustainable crop production. Genetic improvements are needed for growing soybean in salinity-prone environments. Salt-tolerant soybean genotypes alleviate a reduction in photosynthesis and growth under saline conditions; however, the detailed mechanisms involved remain unclear. Here, we aimed to clarify how Na and Cl root-to-leaf transport is quantitatively regulated, and to identify whether photosynthetic tolerance depends on traits associated with either stomata or with mesophyll tissues. Two pairs of pot-grown soybean near-isogenic lines (NILs) consisting of tolerant and susceptible counterparts, derived from a cross between salt-tolerant FT-Abyara and salt-sensitive C01, were subjected to salinity treatment in a rainout greenhouse. Comparison of photosynthetic responses between genotypes indicated that genotypic differences in salinity tolerance depended on the ability for sustained CO₂ assimilation in mesophyll tissues, rather than stomatal conductance. The ratio of photosynthetic rate to intercellular CO₂ concentration (A/Ci) declined exponentially with increasing Na and Cl concentration regardless of genotype, but tolerant genotypes effectively kept both elements at significantly low levels. Under saline conditions, tolerant genotypes reduced Na and Cl content at the two transport pathways: from root to stem, and from stem to leaf, but the reduction of Cl at each pathway was only minor. These results suggest that integrating genetic capacity for Cl transport regulation and osmotic adjustment should be an important target in salinity-tolerance soybean breeding.     

Genotypic Variation of Stomatal Conductance in Relation to Stomatal Density and Length in Rice (Oryza sativa L.)

Abstract

Stomatal conductance (g_s) is an important trait responsible for the genotypic difference in gas diffusion for photosynthesis and transpiration in rice (Oryza sativa L.). We measured g_s, stomatal density and stomatal length (guard-cell length) at two weeks before heading for 64 accessions from a rice diversity research set of germplasm (RDRS) and for three high-yielding cultivars (HYC) under field conditions. Considerable variations in g_s, and stomatal length were observed among varieties in RDRS, and it was considered that RDRS covers the species diversity of the stomatal characteristics in rice. When it was compared among the varieties with similar plant earliness, g_s was higher in HYC than in most varieties of RDRS. Stomatal density did not correlate with g_s, and there was a negative correlation between stomatal density and stomatal length. However, noticeable variance existed in the latter relation, where HYC exhibited a higher stomatal density and slightly shorter stomatal length than RDRS. High g_s in HYC is attributable to their high stomatal density and moderate specific stomatal conductance (g_s / stomatal density) while the high-g_s varieties in RDRS tended to have a lower stomatal density and higher specific stomatal conductance. Stomatal length is related to specific stomatal conductance, but there are remarkable differences between these traits. Specific stomatal conductance in HYC has not reached the upper limit for their stomatal size, which raises a possibility of further improvement of HYC in g_s.     

4个核桃品种光合特性的日变化

采用LI 6400便携式光合测定仪,分析鲁光、扎343、强特勒、中林5号4个核桃（Juglans regia）品种光合特性的日变化,以期为核桃的优质高产和规范化生产提供理论依据。结果表明,4个不同的核桃品种净光合速率（Pn）日变化均呈现双峰曲线,且在14:00均出现显著的“午休”现象;强特勒、中林5号较鲁光和扎343更早地受到了光抑制。4个核桃品种Pn与光合有效辐射（PAR）均存在显著正相关,相关系数由大到小依次为扎343>强特勒>鲁光>中林5号。     

Water relations of Eucalyptus nitens × Eucalyptus grandis: is there interclonal variation in response to experimentally imposed water stress?

This study tested the hypothesis that water stress increases the hydraulic efficiency of Eucalyptus nitens × E. grandis saplings as a result of osmotic and elastic adjustments. Eucalyptus nitens × E. grandis clones (NH00, NH58, NH69 and NH70) were potted in coarse river sand supplemented with a slow-release fertiliser, drip-irrigated four times daily and exposed to full sunlight for eight months. Thereafter, irrigation was withheld twice for seven consecutive days from half of the saplings of each clone, with a seven-day recovery period (regular irrigation) in-between. Relative soil moisture content did not correlate with stomatal conductance (g_s) at pre-dawn and at midday. Leaves of plants subjected to the water-stress treatment wilted in 7 d, and the reduction in g_s was significant at midday with no significant differences between clones. Stomatal conductance and all traits derived from pressure-volume graphs (e.g. osmotic potential at full turgor) were constant in the control treatment. There were no clear patterns in osmotic and elastic adjustments in both treatments. Root hydraulic conductance was constant between treatments and clones. However, water stress reduced shoot hydraulic conductance and stem hydraulic conductivity with significant interclonal effects. Plant biomass, leaf area and leaf weight ratio were significantly lower in the water-stressed plants, but there were no differences between the clones. In conclusion, the water-stress treatment did not introduce significant differences in stomatal conductance and tissue-water relations of Eucalyptus nitens × E. grandis clones. Interclonal variation in water-stress response was found in shoot hydraulic traits, and clone NH58 may be more suitable for planting across sites prone to moderate water stress.     

短期干旱胁迫下棉花气孔表现及光合特征研究

研究气孔对干旱胁迫的响应有助于了解气孔调节真实行为和提高水分利用效率。本研究以‘国欣9号’为供试棉花品种,在人工气候室利用营养液培养,设置加入PEG-6000浓度为0（对照）、1.5%、3.0%和4.5% 4个处理,处理后1~7 d每隔1 d连续测定其气孔形态、光合和叶绿素荧光指标。结果表明：加入PEG-6000 1 d后,随着处理进程的延长,棉花叶片水势、气孔长度、宽度和开度、净光合速率（P_n）、气孔导度（G_s）、蒸腾速率（T_r）、胞间CO₂浓度（C_i）、最大光化学效率（F_v/F_m）和实际光化学量子产量（Yield）均呈下降趋势,气孔密度和非光化学淬灭系数（NPQ）呈上升趋势;不同处理之间,随着干旱胁迫程度增加,也表现出相似趋势。处理后5 d和7 d,与正常处理相比,1.5%、3.0%和4.5%处理棉花气孔长度、宽度、水势、P_n、G_s、T_r和C_i均差异显著（P<0.05）,气孔长度降低幅度最小（1.17%~2.61%）,G_s降低幅度最大（61.62%~69.09%）,T_r降低幅度为37.62%~67.48%。相关分析表明,棉花气孔长度、宽度和开度之间极显著正相关（P<0.01）,气孔宽度和气孔密度不相关。气孔长度、宽度和开度与P_n和Yield极显著正相关（P<0.01）,与NPQ极显著负相关（P<0.01）,与G_s、T_r和F_v/F_m相关不显著。综上,棉花在PEG-6000诱发干旱后,通过降低气孔开度和增大气孔密度降低净光合速率和气孔导度,叶绿素荧光指标Yield和NPQ比F_v/F_m对干旱更敏感。     

扁核木光合特性的研究

用Li-6400光合作用测定系统对扁核木的光合特性进行了测定。结果表明：扁核木叶片光合速率日变化呈双峰曲线,最高峰分别出现在10：00和15：00,有明显的光合“午休”现象;叶片蒸腾速率和气孔导度的日变化趋势与光合速率相似,呈双峰曲线。光合速率与气孔导度、蒸腾速率呈极显著正相关;影响光合作用的主导环境因子为光合有效辐射和相对湿度。扁核木光合作用的光饱和点和补偿点分别为1020μLmol&#183;m^-2&#183;s^-1和23．8μLmol&#183;m^-2&#183;s^-1,表观量子效率为0．0569;CO2饱和点和补偿点分别为1330μLmol&#183;mol^-1和54．7μLmol&#183;mol^-1,羧化效率为0．0724;光合作用最适温是24．9℃。扁核木净光合速率的季节性变化也呈双峰曲线。