Evolutionary history underlies plant physiological responses to global change since the last glacial maximum

被引:26
作者
Becklin, Katie M. [1 ]
Medeiros, Juliana S. [2 ]
Sale, Kayla R. [1 ]
Ward, Joy K. [1 ]
机构
[1] Univ Kansas, Dept Ecol & Evolutionary Biol, Lawrence, KS 66045 USA
[2] Holden Arboretum, Kirtland, OH 44094 USA
基金
美国国家卫生研究院;
关键词
stomatal index; packrat middens; stomatal conductance; climate change; last glacial maximum; Atmospheric [CO2; leaf nitrogen content; maximum photosynthetic capacity; WATER-USE EFFICIENCY; CARBON-ISOTOPE DISCRIMINATION; BREA TAR PITS; ATMOSPHERIC CO2; PHOTOSYNTHETIC ACCLIMATION; BRISTLECONE-PINE; ELEVATED CO2; RESOURCE-USE; GREAT-BASIN; TREES;
D O I
10.1111/ele.12271
中图分类号
Q14 [生态学(生物生态学)];
学科分类号
071012 ; 0713 ;
摘要
Assessing family- and species-level variation in physiological responses to global change across geologic time is critical for understanding factors that underlie changes in species distributions and community composition. Here, we used stable carbon isotopes, leaf nitrogen content and stomatal measurements to assess changes in leaf-level physiology in a mixed conifer community that underwent significant changes in composition since the last glacial maximum (LGM) (21kyr BP). Our results indicate that most plant taxa decreased stomatal conductance and/or maximum photosynthetic capacity in response to changing conditions since the LGM. However, plant families and species differed in the timing and magnitude of these physiological responses, and responses were more similar within families than within co-occurring species assemblages. This suggests that adaptation at the level of leaf physiology may not be the main determinant of shifts in community composition, and that plant evolutionary history may drive physiological adaptation to global change over recent geologic time.
引用
收藏
页码:691 / 699
页数:9
相关论文
共 43 条
[1]   Gas exchange and photosynthetic acclimation over subambient to elevated CO2 in a C3-C4 grassland [J].
Anderson, LJ ;
Maherali, H ;
Johnson, HB ;
Polley, HW ;
Jackson, RB .
GLOBAL CHANGE BIOLOGY, 2001, 7 (06) :693-707
[2]   Long tree-ring chronologies reveal 20th century increases in water-use efficiency but no enhancement of tree growth at five Iberian pine forests [J].
Andreu-Hayles, Laia ;
Planells, Octavi ;
Gutierrez, Emilia ;
Muntan, Elena ;
Helle, Gerhard ;
Anchukaitis, Kevin J. ;
Schleser, Gerhard H. .
GLOBAL CHANGE BIOLOGY, 2011, 17 (06) :2095-2112
[3]  
[Anonymous], 2011, NOAAS 1981 2010 CLIM
[4]  
[Anonymous], ACTA PHYSL PLANT
[5]  
[Anonymous], GLOBAL BIOGEOCHEM CY
[6]   Eight glacial cycles from an Antarctic ice core [J].
Augustin, L ;
Barbante, C ;
Barnes, PRF ;
Barnola, JM ;
Bigler, M ;
Castellano, E ;
Cattani, O ;
Chappellaz, J ;
DahlJensen, D ;
Delmonte, B ;
Dreyfus, G ;
Durand, G ;
Falourd, S ;
Fischer, H ;
Flückiger, J ;
Hansson, ME ;
Huybrechts, P ;
Jugie, R ;
Johnsen, SJ ;
Jouzel, J ;
Kaufmann, P ;
Kipfstuhl, J ;
Lambert, F ;
Lipenkov, VY ;
Littot, GVC ;
Longinelli, A ;
Lorrain, R ;
Maggi, V ;
Masson-Delmotte, V ;
Miller, H ;
Mulvaney, R ;
Oerlemans, J ;
Oerter, H ;
Orombelli, G ;
Parrenin, F ;
Peel, DA ;
Petit, JR ;
Raynaud, D ;
Ritz, C ;
Ruth, U ;
Schwander, J ;
Siegenthaler, U ;
Souchez, R ;
Stauffer, B ;
Steffensen, JP ;
Stenni, B ;
Stocker, TF ;
Tabacco, IE ;
Udisti, R ;
van de Wal, RSW .
NATURE, 2004, 429 (6992) :623-628
[7]  
Beerling DJ, 2005, ECOL STU AN, V177, P114
[8]  
Beerling DJ, 1996, TREE PHYSIOL, V16, P389
[9]   Leaf metabolic and morphological responses of dwarf willow (Salix herbacea) in the sub-arctic to the past 9000 years of global environmental change [J].
Beerling, DJ ;
Rundgren, M .
NEW PHYTOLOGIST, 2000, 145 (02) :257-269
[10]  
Bidartondo MI, 2001, CAN J BOT, V79, P293, DOI 10.1139/cjb-79-3-293