羊草呼吸作用与温度、光照和土壤水分的关系

本文报道了两种土壤水分条件下羊草明呼吸速率与光照和温度的关系,以及暗呼吸速率与温度的关系。结果表明,羊草的明呼吸速率与光强呈非线性函数关系。在低光强下,明呼吸速率随光强升高而有较快的增加;随着光强的增高,其增加速度减慢。在温度低于羊草光合的高温补偿点的条件下,明呼吸速率在一定温度范围内随温度升高而增大;当温度达到一定限度时,有一个下降阶段,而后又回升。羊草的暗呼吸速率随温度增加而升高,且在一定限度内,其升高速度随温度增高而加快。当土壤干旱时,明呼吸速率显著降低,而暗呼吸速率仅略有减小。     

羊草呼吸作用与温度,光照和土壤水分的关系

本文报道了两种土壤水分条件下羊草明呼吸率与光照和温度的关系,以及暗呼吸速率与温度的关系,结果表明,羊草的明呼吸速率与光强呈非线性函数关系。在低光强下,明呼吸速率随光强升高而有较快的增加;随着光强的增高,其增加速度减慢。在温度低于羊草光合的高温补偿点的条件下,明呼吸速率在一定温度范围内随温度升高而增大;当温度达到一定限度时,有一个下降阶段,而后又回升。羊草的暗呼吸速率随温度增加而升高,且在一定限度内     

羊草呼吸作用与温度和光照关系的研究

为进一步分析羊草物质生产过程,探讨提高光合生产力的途径,我们研究了温度和光照对羊草明呼吸的影响以及温度对暗呼吸的影响。明呼吸(包括光呼吸和光下暗呼吸)用零气法(即向叶室内通入不含 CO_2的气体)测定,     

光合作用和呼吸作用关系图解

在植物生命活动过程中，光合作用与呼吸作用的关系非常密切。这两种生理生化过程，既相互对立，又相互依存，共同存在于统一有机体中。为了简单明确地把光合作用与呼吸作用的关系以图解形式表达出来，应用于教学之中，过去钟被波【门、葛培根【＼潘瑞炽和董愚得［’］都曾做过尝试，有一定教学参考价值。但是，我认为这些图解过于繁杂或仅局限于能量关系。我们在编写新教材中也设计了一个图解（图1），比较全面地表达了光合作用与呼吸作用在能量代谢和物质代谢之间的关系，简单明确，学生和读者易于领会。这一图解具体说明了以下问题：（1）…     

3种藓类植物水分含量与光合作用、呼吸作用和水势的关系

对湿地匍灯藓〔Plagiomniumacutum(Lindb.)T.Kop.〕、大羽藓〔Thuidiumcymbifolium(Dozy&Molk.)Dozy&Molk.〕和垂藓〔Chrysocladiunretrorsum(Mitt.)Fleisch.〕的水分含量与光合作用、呼吸作用和水势的关系进行了初步研究（1999年5月20日到6月10日）。在这3种藓类植物中,其水分含量与光合作用速率（Pn）的关系可以分为2种类型一种类型如大羽藓和垂藓,在藓体水分含量20%～70%时,Pn随着水分含量增加而增加,但是在80%～95%时,Pn随水分含量增加而下降,光合最适水分含量约70%～80%;另一种出现在湿地匍灯藓,水分含量20%～80%时,Pn随着水分含量增加而增加,在80%～95%时,Pn维持一个较高的水平,光合最适水分含量为80%～90%。在一个大的水分含量范围内（60%～95%）,暗呼吸（Rd）保持相对稳定,但是在水分含量较低时（20%～70%）,Rd随着水分含量的下降而下降。在藓体水分含量与水势之间的关系方面,3种藓类植物相似,水分含量与水势对数之间的回归曲线为S形曲线。     

细胞质雄性不育水稻的呼吸作用和自由基代谢的关系初探

用呼吸电子传递细胞色素途径的抑制剂氰化钾（ＫＣＮ）与抗氰呼吸途径的抑制剂水杨基氧肟酸（ＳＨＡＭ）处理水稻细胞质雄性不育系（ＣＭＳ）珍汕９７Ａ及其保持系珍汕９７Ｂ的幼穗和花药后,ＫＣＮ使不育系与保持系的超氧阴离子自由基（Ｏ２■）产生受到抑制,不育系的Ｏ２■的形成受抑制较多。ＳＨＡＭ处理则增高Ｏ２■形成,以不育系的增加较多．ＫＣＮ与ＳＨＡＭ处理后都使不育系与保持系的丙二醛（ＭＤＡ）含量升高,ＫＣＮ使保持系的ＭＤＡ含量升高较多,ＳＨＡＭ则使不育系的ＭＤＡ含量升高较多．ＫＣＮ处理后,不育系与保持系的超氧物歧化酶（ＳＯＤ）活性下降,ＳＨＡＭ处理后不育系与保持系的ＳＯＤ活性变化不明显。Ｈ２Ｏ２处理对不育系与保持系幼穗的呼吸速率影响不大．Ｈ２Ｏ２＋ＦｅＳＯ４处理后,使呼吸速率大幅度下降,表明Ｈ２Ｏ２＋ＦｅＳＯ４所形成的羟自由基（ＯＨ）比Ｈ２Ｏ２对呼吸代谢的破坏作用更大。     

土壤微生物与根系呼吸作用影响因子分析

土壤呼吸作用作为陆地生态系统碳循环的重要组成部分,是当前碳循环研究中的热点问题.对于土壤呼吸作用主要组成部分土壤微生物呼吸作用和根系呼吸作用影响因子的研究,有助于准确地评估全球碳收支.本文从气候、土壤、植被及地表覆被物、大气CO₂浓度、人为干扰等方面综述了土壤微生物呼吸作用和根系呼吸作用的主导影响因子,指出这些影响因子不仅直接或间接地影响土壤微生物呼吸作用和根系呼吸作用,而且它们之间相互作用、相互影响,且各影响因子的地位和作用会随时空尺度变化发生相应改变.在此基础上,论文提出了未来土壤呼吸作用的研究重点.     

稻麦作物呼吸作用与植株氮含量、生物量和温度的定量关系

陆地生态系统碳循环是全球变化研究的重要议题之一,准确估算植被的呼吸作用对于客观评价植被在陆地生态系统碳循环中的作用具有重要意义。为探讨作物生长、植株氮含量和环境温度对呼吸作用的综合影响,研究以盆栽为主并与大田试验相结合,基于逐步收割法和静态暗箱-气相色谱技术,于2 0 0 2年和2 0 0 3年冬小麦和水稻生长季原位测定了作物地上部分CO2 排放速率,并同时测定了作物生物量、氮含量和环境温度。试验处理分为常规管理、不同氮肥水平、不同播种期和不同种植密度。研究结果表明:稻麦作物暗呼吸系数(Rd)不是常数,而是正比于植株氮(N )含量,两者的关系可用方程Rd=4 .74 N - 1.4 5 (R2 =0 .85 ,n=12 2 ,p<0 .0 0 1)来定量表述。用方程RD=(4.74 N - 1.4 5 )×Q( T- 2 5) /1 01 0 ×W模拟的作物暗呼吸量(RD)与大田测定结果一致。用国际上著名的作物模拟模型估算的稻麦作物维持性呼吸与用此方程模拟的结果具有可比性,而采用陆地生态系统模型(TEN)估算的结果则远高于本项研究,TEM用于估算农业植被的呼吸作用可能是不适合的。     

不同粒级土壤团聚体呼吸特征及其对碳排放的贡献

通过土盆培养试验研究了不同粒级黄棕壤团聚体呼吸特征及其对碳排放的贡献,结果表明:各粒级土壤团聚体及原状土在培养初期土壤呼吸速率较高,之后逐渐降低。在整个培养期间原状土保持了最大的土壤呼吸速率;土壤团聚体类型对土壤呼吸速率影响较大,3种粒级团聚体土壤呼吸速率大小表现为(5 mm)(1 mm)≈(1~5 mm),其中以5 mm团聚体对土壤碳排放的贡献最大。相关性分析表明,指数模型能较好地描述不同粒级团聚体的土壤呼吸对温度变化的响应;Q10值介于2.53~5.11之间且与土壤有机碳、全氮含量的变化规律基本一致,表现为1 mm团聚体有机碳、全氮含量和Q10值较大,5 mm、1~5 mm团聚体有机碳、全氮含量和Q10值相对较低,说明土壤团聚体粒级越小,其呼吸速率对温度越敏感。土壤有机碳、氮含量与土壤结构是影响土壤呼吸温度敏感性的重要因素。     

光、温度和土壤水分对坡垒种子萌发的影响

研究了温度,光照,土壤水分对坡垒（Hopea hainanensis Merr.et Chun)种子萌发和寿命的影响。结果表明坡垒种子萌发的最适温度为15－20℃种子在全黑暗条件与周期性光照条件下处理的萌发结果无明显差异。土壤含水量为20％－70％时种子能够萌发,而适宜的土壤含水量为30％－50％。在室内自然摊放第14天的发芽率为20％。18d完全丧失发芽能力。由于坡垒种子具有顽拗型种子的一些特点,该物种宜采取活体保存的方法,以就地保护为主,迁地保护为辅。     

Misconceptions About the Relation Between Plant Growth and Respiration

Abstract: The relation between plant growth rate and respiration rate is readily derived from the overall chemical reaction for aerobic metabolism. The derived relation can be used to show that separation of respiration into growth (g) and maintenance (m) components is not a useful concept. g and m cannot be unambiguously measured or defined in terms of biochemical processes. Moreover, because growth yield calculations from biochemical pathway analysis, from biomass molecular composition, from biomass heat of combustion, and from biomass elemental composition have not included all of the energy costs for biosynthesis, they are not accurate measures of the carbon cost for plant growth. Improper definitions of growth-respiration relations are impeding the use of physiological properties for prediction of plant growth as a function of environmental variables.     

Root Respiration,Photosynthesis and Grain Yield of Two Spring Wheat in Response to Soil Drying

The effects of soil water regime and wheat cultivar, differing in drought tolerance with respect to root respiration and grain yield, were investigated in a greenhouse experiment. Two spring wheat (Triticum aestivum) cultivars, a drought sensitive (Longchun 8139-2) and drought tolerant (Dingxi 24) were grown in PVC tubes (120 cm in length and 10 cm in diameter) under an automatic rain-shelter. Plants were subjected to three soil moisture regimes: (1) well-watered control (85% field water capacity, FWC); (2) moderate drought stress (50% FWC) and (3) severe drought stress (30% FWC). The aim was to study the influence of root respiration on grain yield under soil drying conditions. In the experiment, severe drought stress significantly (p < 0.05) reduced shoot and root biomass, photosynthesis and root respiration rate for both cultivars, but the extent of the decreases was greater for Dingxi 24 compared to that for Longchun 8139-2. Compared with Dingxi 24, 0.04 and 0.07 mg glucose m⁻² s⁻¹ of additional energy, equivalent to 0.78 and 1.43 J m⁻² s⁻¹, was used for water absorption by Longchun 8139-2 under moderate and severe drought stress, respectively. Although the grain yield of both cultivars decreased with declining soil moisture, loss was greater in Longchun 8139-2 than in Dingxi 24, especially under severe drought stress. The drought tolerance cultivar (Dingxi 24), had a higher biomass and metabolic activity under severe drought stress compared to the sensitive cultivar (Longchun 8139-2), which resulted in further limitation of grain yield. Results show that root respiration, carbohydrates allocation (root:shoot ratio) and grain yield were closely related to soil water status and wheat cultivar. Reductions in root respiration and root biomass under severe soil drying can improve drought tolerant wheat growth and physiological activity during soil drying and improve grain yield, and hence should be advantageous over a drought sensitive cultivar in arid regions.     

光照强度、温度、pH、盐度对小球藻(Chlorella)光合作用的影响

利用测定净光合放氧速率的方法研究了光照强度、温度、pH、盐度对小球藻(Chlorella sp.XQ-200419)和海洋小球藻(Chlorella marina NJ-016)光合作用的影响。小球藻(Chlorella sp.XQ-200419)的适宜光照强度范围为100～1600μmo·lm-2·s-1,光饱和点在500μmo·lm-2·s-1附近;适宜温度范围为25～42.5℃,最适温度为37.5℃;适宜pH值范围为6.5～9.0,最适pH值为7.0;对盐度的适应范围较广,在0～0.6mol/L范围内,随着盐度的升高,净光合放氧速率有下降趋势。海洋小球藻(Chlorella marina NJ-016)的适宜光照强度范围为400～1600μmol·m-2·s-1,光饱和点在1400μmo·lm-2.s-1附近;适宜温度范围为25～42.5℃,最适温度为37.5℃;适宜pH值范围为5.0～9.0,最适pH值为8.0;对盐度有很好的适应性,在0～0.6mol/L范围内,随着盐度升高,净光合放氧速率明显上升。小球藻和海洋小球藻的净光合放氧速率随光照强度、温度、pH值和盐度变化的规律,表明了两种小球藻的基本生理生态学特性:能适应较强的光照强度、较高的温度、中性偏碱的环境和较高的盐度。研究结果有助于小球藻培养条件的优化。两种小球藻对光照强度、温度、pH值和盐度变化的反应也有所不同:与小球藻(Chlorella sp.XQ-200419)相比,海洋小球藻(Chlorella marina NJ-016)对光照强度有更好的适应性,对pH值变化有更宽的适应范围,适当提高盐度对其光合作用有明显的促进作用。这表明海洋小球藻(Chlorella marina NJ-016)在快速生长繁殖方面具有更大的潜力,这一研究结果为筛选适合于大量培养的优良藻种提供了依据。     

Soil Respiration in the Cold Desert Environment of the Colorado Plateau (USA): Abiotic Regulators and Thresholds

Decomposition is central to understanding ecosystem carbon exchange and nutrient-release processes. Unlike mesic ecosystems, which have been extensively studied, xeric landscapes have received little attention; as a result, abiotic soil-respiration regulatory processes are poorly understood in xeric environments. To provide a more complete and quantitative understanding about how abiotic factors influence soil respiration in xeric ecosystems, we conducted soil- respiration and decomposition-cloth measurements in the cold desert of southeast Utah. Our study evaluated when and to what extent soil texture, moisture, temperature, organic carbon, and nitrogen influence soil respiration and examined whether the inverse-texture hypothesis applies to decomposition. Within our study site, the effect of texture on moisture, as described by the inverse texture hypothesis, was evident, but its effect on decomposition was not. Our results show temperature and moisture to be the dominant abiotic controls of soil respiration. Specifically, temporal offsets in temperature and moisture conditions appear to have a strong control on soil respiration, with the highest fluxes occurring in spring when temperature and moisture were favorable. These temporal offsets resulted in decomposition rates that were controlled by soil moisture and temperature thresholds. The highest fluxes of CO₂ occurred when soil temperature was between 10 and 16 °C and volumetric soil moisture was greater than 10%. Decomposition-cloth results, which integrate decomposition processes across several months, support the soil-respiration results and further illustrate the seasonal patterns of high respiration rates during spring and low rates during summer and fall. Results from this study suggest that the parameters used to predict soil respiration in mesic ecosystems likely do not apply in cold-desert environments.     

光照强度、温度、pH、盐度对小球藻（Chlorella）光合作用的影响

利用测定净光合放氧速率的方法研究了光照强度、温度、pH、盐度对小球藻（Chlorella sp.XQ-200419）和海洋小球藻（Chlorella marina NJ-016）光合作用的影响。小球藻（Chlorella sp.XQ-200419）的适宜光照强度范围为100～〉1600μmo·lm-2·s-1,光饱和点在500μmo·lm-2·s-1附近;适宜温度范围为25～42.5℃,最适温度为37.5℃;适宜pH值范围为6.5～9.0,最适pH值为7.0;对盐度的适应范围较广,在0～0.6mol/L范围内,随着盐度的升高,净光合放氧速率有下降趋势。海洋小球藻（Chlorella marina NJ-016）的适宜光照强度范围为400～〉1600μmol·m-2·s-1,光饱和点在1400μmo·lm-2.s-1附近;适宜温度范围为25～42.5℃,最适温度为37.5℃;适宜pH值范围为5.0～9.0,最适pH值为8.0;对盐度有很好的适应性,在0～0.6mol/L范围内,随着盐度升高,净光合放氧速率明显上升。小球藻和海洋小球藻的净光合放氧速率随光照强度、温度、pH值和盐度变化的规律,表明了两种小球藻的基本生理生态学特性：能适应较强的光照强度、较高的温度、中性偏碱的环境和较高的盐度。研究结果有助于小球藻培养条件的优化。两种小球藻对光照强度、温度、pH值和盐度变化的反应也有所不同：与小球藻（Chlorella sp.XQ-200419）相比,海洋小球藻（Chlorella marina NJ-016）对光照强度有更好的适应性,对pH值变化有更宽的适应范围,适当提高盐度对其光合作用有明显的促进作用。这表明海洋小球藻（Chlorella marina NJ-016）在快速生长繁殖方面具有更大的潜力,这一研究结果为筛选适合于大量培养的优良藻种提供了依据。     

Effect of Zinc on the Contents of Tomato Chloroplast DNA,RNA, Protein and Chl-Protein Complexes in Relation to Light

Changes of chloroplast DNA, RNA and protein contents in normal andzinc deficient tomato plants grown under different light intensity were studied in thispaper. It was shown that there is no much difference between normal and zinc deficient chloroplast DNA, RNA and protein e0ntents when the plants were grown underlower light intensity, while the DNA, RNA and protein contents of zinc deficient plantsdecreased dramatically under higher light intensity. The DNA and protein contentsof normal plants increased when light intensity was increased from 18000 lx to 45000 lx.The P700 Chl a-protein complexes and light harvesting Chl a/b-protein complexes of zincdeficient plants decreased seriously under higher light intensity.     

温度、光照和pH值对锥状斯氏藻和塔玛亚历山大藻光合作用的影响及光暗周期对其生长速率和生物量的影响

用测定净光合放氧速率的方法研究了温度、光照和pH对锥状斯氏藻(Scrippsiella trochoidea)和塔玛亚历山大藻(Alexandrium tamarense)光合作用的影响.在不同光暗周期(L∶D)条件下培养锥状斯氏藻和塔玛亚历山大藻,研究了光暗周期对生长繁殖速率和生物量的影响.2种藻对温度的变化敏感,适宜的温度范围是17～25℃,最适温度20～22℃,低于10℃和高于30℃不能生长;锥状斯氏藻的光饱和点是400 μmol·m-2·s-1,塔玛亚历山大藻的光饱和点是650 μmol·m-2·s-1, 都属于喜高光强的微藻;2种藻对pH值的变化极其敏感,适宜的pH值范围很小,为7.0～9.0, 最适pH值7.5～8.0, 与其生活的海洋环境一致,pH值高于9.5时, 不能进行有效的光合作用,pH值10.0可致全部细胞死亡;在一定范围内,2种藻的生长速率(μ)和生物量随着光照时间的延长呈比例增加.