High thermal acclimation potential of both photosynthesis and respiration in two lowland Plantago species in contrast to an alpine congeneric

被引:201
作者
Atkin, OK
Scheurwater, I
Pons, TL
机构
[1] Univ York, Dept Biol, York YO10 5YW, N Yorkshire, England
[2] Univ Utrecht, Dept Plant Ecophysiol, NL-3508 TB Utrecht, Netherlands
关键词
acclimation; alpine; irradiance; lowland; photosynthesis; Plantago; respiration; temperature; triose-phosphate utilization;
D O I
10.1111/j.1365-2486.2006.01114.x
中图分类号
X176 [生物多样性保护];
学科分类号
090705 ;
摘要
Thermal acclimation of photosynthesis and respiration can enable plants to maintain near constant rates of net CO2 exchange, despite experiencing sustained changes in daily average temperature. In this study, we investigated whether the degree of acclimation of photosynthesis and respiration of mature leaves differs among three congeneric Plantago species from contrasting habitats [two fast-growing lowland species (Plantago major and P. lanceolata), and one slow-growing alpine species (P. euryphylla)]. In addition to investigating some mechanisms underpinning variability in photosynthetic acclimation, we also determined whether leaf respiration in the light acclimates to the same extent as leaf respiration in darkness, and whether acclimation reestablishes the balance between leaf respiration and photosynthesis. Three growth temperatures were provided: constant 13, 20, or 27 degrees C. Measurements were made at five temperatures (6-34 degrees C). Little acclimation of photosynthesis and leaf respiration to growth temperature was exhibited by P. euryphylla. Moreover, leaf masses per area (LMA) were similar in 13 degrees C-grown and 20 degrees C-grown plants of the alpine species. In contrast, growth at 13 degrees C increased LMA in the two lowland species; this was associated with increased photosynthetic capacity and rates of leaf respiration (both in darkness and in the light). Alleviation of triose phosphate limitation and increased capacity of electron transport capacity relative to carboxylation were also observed. Such changes demonstrate that the lowland species cold-acclimated. Light reduced the short-term temperature dependence (i.e. Q(10)) of leaf respiration in all three species, irrespective of growth temperature. Collectively, our results highlight the tight coupling that exists between thermal acclimation of photosynthetic and leaf respiratory metabolism (both in darkness and in the light) in Plantago. If widespread among contrasting species, such coupling may enable modellers to assume levels of acclimation in one parameter (e.g. leaf respiration) where details are only known for the other (e.g. photosynthesis).
引用
收藏
页码:500 / 515
页数:16
相关论文
共 73 条
[51]   Relationship between the heat tolerance of photosynthesis and the thermal stability of rubisco activase in plants from contrasting thermal environments [J].
Salvucci, ME ;
Crafts-Brandner, SJ .
PLANT PHYSIOLOGY, 2004, 134 (04) :1460-1470
[52]   DARK RESPIRATION PROTECTS PHOTOSYNTHESIS AGAINST PHOTOINHIBITION IN MESOPHYLL PROTOPLASTS OF PEA (PISUM-SATIVUM) [J].
SARADADEVI, K ;
RAGHAVENDRA, AS .
PLANT PHYSIOLOGY, 1992, 99 (03) :1232-1237
[53]   Cold acclimation of Arabidopsis thaliana results in incomplete recovery of photosynthetic capacity, associated with an increased reduction of the chloroplast stroma [J].
Savitch, LV ;
Barker-Åstrom, J ;
Ivanov, AG ;
Hurry, V ;
Öquist, G ;
Huner, NPA ;
Gardeström, P .
PLANTA, 2001, 214 (02) :295-303
[54]   TERRESTRIAL ECOSYSTEMS AND THE CARBON-CYCLE [J].
SCHIMEL, DS .
GLOBAL CHANGE BIOLOGY, 1995, 1 (01) :77-91
[55]   LIMITATION OF PHOTOSYNTHESIS BY CARBON METABOLISM .2. O-2-INSENSITIVE CO2 UPTAKE RESULTS FROM LIMITATION OF TRIOSE PHOSPHATE UTILIZATION [J].
SHARKEY, TD ;
STITT, M ;
HEINEKE, D ;
GERHARDT, R ;
RASCHKE, K ;
HELDT, HW .
PLANT PHYSIOLOGY, 1986, 81 (04) :1123-1129
[56]   Effects of moderate heat stress on photosynthesis: importance of thylakoid reactions, rubisco deactivation, reactive oxygen species, and thermotolerance provided by isoprene [J].
Sharkey, TD .
PLANT CELL AND ENVIRONMENT, 2005, 28 (03) :269-277
[57]   ROLE OF DARK RESPIRATION IN PHOTOINHIBITION OF PHOTOSYNTHESIS AND ITS REACTIVATION IN THE CYANOBACTERIUM ANACYSTIS-NIDULANS [J].
SHYAM, R ;
RAGHAVENDRA, AS ;
SANE, PV .
PHYSIOLOGIA PLANTARUM, 1993, 88 (03) :446-452
[58]   A plant for all seasons:: alterations in photosynthetic carbon metabolism during cold acclimation in Arabidopsis [J].
Stitt, M ;
Hurry, V .
CURRENT OPINION IN PLANT BIOLOGY, 2002, 5 (03) :199-206
[59]   Development of Arabidopsis thaliana leaves at low temperatures releases the suppression of photosynthesis and photosynthetic gene expression despite the accumulation of soluble carbohydrates [J].
Strand, A ;
Hurry, V ;
Gustafsson, P ;
Gardestrom, P .
PLANT JOURNAL, 1997, 12 (03) :605-614
[60]   Respiratory acclimation in Arabidopsis thaliana leaves at low temperature [J].
Talts, P ;
Pärnik, T ;
Gardeström, P ;
Keerberg, O .
JOURNAL OF PLANT PHYSIOLOGY, 2004, 161 (05) :573-579