Metabolic response of Medicago sativa L. and Lotus corniculatus L roots to anoxia

Abstract Differential rates of fermentation and energy production have been implicated in the response of plant species to extended root anoxia. This study describes the metabolic response to anaerobiosis of waterlogging-tolerant birdsfoot trefoil (Lotus corniculatus L.) and waterlogging-sensitive alfalfa (Medicago sativa L.). Studies were carried out on glasshouse-grown plants subjected to root anaerobiosis in nutrient solution. Rate of fermentation, as estimated by CO₂ evolution, declined significantly upon anaerobiosis in both species but was proportionally less, relative to the aerobic control, in trefoil. Another indicator of carbon flux through glycolysis, the concentration of glucose-6-phosphate, was also significantly lower in trefoil roots relative to aerobic controls. Both species showed significantly increased root exudation of K⁺, sugars and andno-N, especially during the first 2 d of root anaerobiosis, indicating changes in membrane selective permeability. The energy status of roots subjected to anaerobiosis declined sharply in both species but trefoil roots maintained higher ATP/ADP ratios for up to 4 d of anaerobiosis. The results are consistent with the hypothesis that increased fermentation activity maintains a more favourable root energy status. This higher energy status may facilitate survival by maintaining crucial root activities, such as maintenance of membrane stability.     

Modelling nutrient mobilisation in intensively mixed peaty heathland soil

Laboratory incubations were used to investigate the influence of soil mixing intensity and waterlogged conditions on nutrient mobilisation from models of cultivated heathland soil. Fragmentation of the peaty surface horizon after different soil cultivation intensities was simulated using four different surface areas of peat organic matter. In well aerated conditions, increased mobilisation of C, NH ₄ ⁺ −N, PO ₄ ³⁻ , K⁺, Ca²⁺ and Mg²⁺ was observed with increased mixing intensity and increased surface area of peat. For all nutrients apart from calcium, intensively mixed treatments showed higher mobilisation rates under waterlogging than under well aerated conditions. This was particularly clear for NH ₄ ⁻ −N and PO ₄ ³⁻ mobilisation. Simple linear regression analysis showed that, under aerated conditions, for four mixing intensities, rates of mobilisation of NH ₄ ⁺ −N, PO ₄ ³⁻ , K⁺, Ca²⁺ and Mg²⁺ were approximately constant per unit of peat surface area exposed during soil mixing. Waterlogging was more important than soil mixing intensity in determining nitrogen mobilisation rates in saturated soil.     

The response of sorghum and sunflower to short-term waterlogging

Summary The effect of waterlogging on sunflower and sorghum was investigated in relation to stage of development (sunflower-6-leaf, buds-visible, anthesis; sorghum-5-leaf, initiation, anthesis) and duration of waterlogging (3, 6 and 9 days) under glasshouse conditions. Additionally, the potential adaptation of the two crops was observed by waterlogging some plants at all three growth stages. With sunflower, leaf expansion and stem extension were inhibited by waterlogging at the 6-leaf and buds-visible stage although these effects did not always persist until maturity while, with anthesis waterlogging, rapid desiccation of leaves was observed. Yield was most affected by the anthesis waterlogging but no consistent effect on seed number or 1000 seed weight was recorded.Waterlogging sorghum plants suppressed normal tillering but had little effect on dry weight of the main stem. Late tillering was stimulated by waterlogging. Reductions in leaf area occurred at all stages of development in response to waterlogging with these effects being more marked at initiation. Similarly, yield was most reduced by the initiation waterlogging largely as a result of reduced seed number.In neither species was there a clear relationship between duration of waterlogging and subsequent reduction in growth and yield. With respect to yield, stage of development seemed to be of greater importance than the duration of waterlogging. The growth and yield of multiple-waterlogged sunflowers was less affected by the anthesis treatment than that in plants experiencing a single waterlogging, suggesting that some form of adaptation was induced. In contrast, no such response was seen in sorghum.     

US forest response to projected climate‐related stress: a tolerance perspective

Although it is widely recognized that climate change will require a major spatial reorganization of forests, our ability to predict exactly how and where forest characteristics and distributions will change has been rather limited. Current efforts to predict future distribution of forested ecosystems as a function of climate include species distribution models (for fine‐scale predictions) and potential vegetation climate envelope models (for coarse‐grained, large‐scale predictions). Here, we develop and apply an intermediate approach wherein we use stand‐level tolerances of environmental stressors to understand forest distributions and vulnerabilities to anticipated climate change. In contrast to other existing models, this approach can be applied at a continental scale while maintaining a direct link to ecologically relevant, climate‐related stressors. We first demonstrate that shade, drought, and waterlogging tolerances of forest stands are strongly correlated with climate and edaphic conditions in the conterminous United States. This discovery allows the development of a tolerance distribution model (TDM), a novel quantitative tool to assess landscape level impacts of climate change. We then focus on evaluating the implications of the drought TDM. Using an ensemble of 17 climate change models to drive this TDM, we estimate that 18% of US ecosystems are vulnerable to drought‐related stress over the coming century. Vulnerable areas include mostly the Midwest United States and Northeast United States, as well as high‐elevation areas of the Rocky Mountains. We also infer stress incurred by shifting climate should create an opening for the establishment of forest types not currently seen in the conterminous United States.     

模拟淹水对枫杨和栓皮栎气体交换、叶绿素荧光和水势的影响

研究了人工模拟淹水胁迫对两年生栓皮栎(Quercus variabilis)和枫杨(Pterocarya stenoptera)树苗的影响。经过70 d的淹水处理两种植物的存活率均为100%。淹水对两种植物生理生态过程的早期影响是快速降低了二者的最大净光合速率(P_max)、气孔导度(G_s)、最大光化学量子效率(F_v/F_m)。经过7 d的淹水处理后,受淹栓皮栎的最大净光合速率是对照的39%,枫杨是对照的42%;受淹栓皮栎的气孔导度是对照的38.8%,枫杨是对照的71.9%;水淹5 d后,枫杨和栓皮栎的最大光化学量子效率分别为0.694和0.757。但经过最初的下降后,枫杨的最大净光合速率、气孔导度和最大光化学量子效率逐渐恢复,而栓皮栎的则持续下降。到淹水70 d时栓皮栎的最大净光合速率下降了94.1%,最大光化学量子效率的平均值为0.537。在试验过程中,枫杨产生了有利于吸收氧气的不定根和肥大的皮孔,而栓皮栎没有产生不定根。随淹水时间的增加枫杨的叶绿素含量与对照没有显著差异;而栓皮栎的叶绿素含量在第33 d后大幅降低,Chla/Chlb的比值下降。淹水后第10 d和第70 d测定的清晨水势,受淹栓皮栎比对照高,而受淹枫杨比对照低,因此淹水导致的叶片水势的变化可能与树种相关。以上的试验结果表明受淹的栓皮栎的光合机构运转受到了严重影响,因此栓皮栎应属于对淹水较敏感的树种。从两种植物受淹水胁迫的形态和生理变化看,枫杨比栓皮栎更耐淹,更适合库塘消落区生境。     

Variable response of three Trifolium repens ecotypes to soil flooding by seawater

Background and Aims

Despite concerns about the impact of rising sea levels and storm surge events on coastal ecosystems, there is remarkably little information on the response of terrestrial coastal plant species to seawater inundation. The aim of this study was to elucidate responses of a glycophyte (white clover, Trifolium repens) to short-duration soil flooding by seawater and recovery following leaching of salts.

Methods

Using plants cultivated from parent ecotypes collected from a natural soil salinity gradient, the impact of short-duration seawater soil flooding (8 or 24 h) on short-term changes in leaf salt ion and organic solute concentrations was examined, together with longer term impacts on plant growth (stolon elongation) and flowering.

Key Results

There was substantial Cl^– and Na⁺ accumulation in leaves, especially for plants subjected to 24 h soil flooding with seawater, but no consistent variation linked to parent plant provenance. Proline and sucrose concentrations also increased in plants following seawater flooding of the soil. Plant growth and flowering were reduced by longer soil immersion times (seawater flooding followed by drainage and freshwater inputs), but plants originating from more saline soil responded less negatively than those from lower salinity soil.

Conclusions

The accumulation of proline and sucrose indicates a potential for solute accumulation as a response to the osmotic imbalance caused by salt ions, while variation in growth and flowering responses between ecotypes points to a natural adaptive capacity for tolerance of short-duration seawater soil flooding in T. repens. Consequently, it is suggested that selection for tolerant ecotypes is possible should the predicted increase in frequency of storm surge flooding events occur.     

江淮地区小麦涝渍灾害风险评估与区划

基于灾害风险分析理论,根据历年气候资料,小麦生长发育、种植面积和产量资料,对江淮地区各县小麦涝渍脆弱性、自然气候风险、灾损风险和抗灾能力等方面进行分析评估,建立了包括涝渍脆弱度、气候风险指数、灾损风险指数、涝渍综合风险评估系数等不同的涝渍风险表征模型,并构建了涝渍综合风险评估系数作为区划指标,对江淮地区小麦涝渍灾害风险进行了空间区域划分。结果表明:涝渍脆弱度、气候风险指数、灾损风险指数和抗灾力系数4个因子的组合,可以较好地反映江淮地区小麦涝渍风险特征;按照高、较高、中和低4个等级对小麦涝渍综合风险进行了区划;安徽省江淮南部为高风险区;沿淮中部以及江淮中部南部、沿洪泽湖区域为涝渍较高风险区;河南省33°N以南区域、以及安徽、江苏省淮北中部区域为涝渍中风险区;33°N以北地区为涝渍低风险区。     

根部水淹和土壤养分提升对三峡库区消落带水蓼生长和繁殖特性的影响

水淹和土壤养分是影响三峡库区消落带植物生长的主要环境因子。消落带不同高程的植物长期经历不同的淹水强度和土壤养分条件。该研究假设同一物种来自于消落带不同高程的植株可能产生性状分化, 从而对根部淹水和土壤养分变化具有不同的生长和繁殖响应策略。为了验证以上假设, 选取在三峡库区消落带高低高程均广泛分布的物种水蓼(Polygonum hydropiper)为研究对象, 采集自然种群的种子。在温室同质园条件下, 研究了根部水淹和土壤养分提升对高低高程水蓼植株生长和繁殖特性的影响。研究结果表明根部水淹显著或趋于显著降低了水蓼植株功能叶的叶长、叶宽、总分枝数、叶生物量、花生物量和总生物量; 低养分处理显著或趋于显著降低了水蓼植株的总节数、总分枝数、根生物量、花生物量和总生物量, 表明根部水淹和低土壤养分对水蓼的生长和繁殖能力具有抑制作用。同时, 根部水淹和土壤养分的交互作用显著影响植株的根生物量, 表明根部水淹条件下高土壤养分更有利于植株根生物量的积累。高高程植株的根生物量和叶生物量显著或趋于显著高于低高程植株, 而低高程植株的始花时间早于高高程植株, 且繁殖分配也显著高于高高程植株, 表明高低高程水蓼植株对资源的分配策略不同。该研究结果表明水蓼的生长和繁殖特性受根部水淹和土壤养分共同限制, 但对根部水淹条件下高土壤养分生境具有较好的适应性; 同时, 低高程植株可以通过调整其生长和繁殖特性以提高对所处生境胁迫的适应性。     

渍害胁迫下小麦生长的响应机理及调控措施研究进展

全球气候变化导致近年来渍害频发,而旱地作物小麦对渍害敏感。受气候、土壤、轮作制度等因素的影响,我国长江中下游小麦主产区的渍害灾情严重。渍害引起的土壤溶氧量降低可以导致小麦根系生长受到抑制,进而限制植株生长,最终降低小麦产量和品质。本文基于国内外相关研究,从根系呼吸代谢、水分传导、矿质养分吸收、光合作用、氧化还原代谢等方面概述了渍害胁迫抑制小麦生长的生理机理;讨论了小麦通过无氧呼吸维持能量供应和改变根系形态维持氧气供应等渍害适应机制;总结了肥料调控、生长调节剂调控和胁迫记忆等栽培措施在小麦抗渍上的应用及其机理,并对未来小麦抗渍研究进行了展望,以期为小麦的耐渍栽培和稳产高产管理提供理论支撑。     

Effect of kinetin on photosynthetic activity and carbohydrate content in waterlogged or seawater-treated Vigna sinensis and Zea mays plants

ABSTRACT

Waterlogging decreased carotenoid content of Vigna sinensis and Zea mays, whilst salinity provoked increases in the former and decreases in the latter. Both treatments showed significant reductions in chlorophyll content and in photosynthetic activity (Hill reaction and ¹⁴CO₂-light fixation). Meanwhile, a significant decrease in the activity of ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) was detected in both plants. These reductions could result in losses in the photosynthetic activity with a drop in the net formation of carbohydrates. Waterlogging markedly increased glucose and sucrose in shoots and roots of both species throughout the experimental period but greatly decreased polysaccharides, whilst salinity reduced all carbohydrate fractions. Foliar application of 50 ppm kinetin to treated plants mostly counterbalanced the observed changes in pigments, as well as in the Hill reaction and ¹⁴CO₂ assimilation. Kinetin also rendered carbohydrate levels in shoots and roots of treated plants and activity of Rubisco closer to control values. The increased levels of glucose and sucrose concomitant with decreased polysaccharides might point to a block in their transport rather than to an over-production. Kinetin counterbalanced the effects of waterlogging or salinity on photosynthetic activity, probably through enhanced production of enzyme and/or delay of senescence.