Species-level phenological responses to ‘global warming’ as evidenced by herbarium collections in the Tibetan Autonomous Region
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In recent years attention has been given to assess the impacts of warming on the plant flowering phenology. There is a growing realization that herbarium-based collections could offer a reliable and relatively time-saving baseline data source to identify these effects. This article examines the magnitude and trends of warming effects on the average flowering timing (AFT) of plants in Tibet Autonomous Region using analysis of herbarium specimens collected for 4 decades. Mixed model with randomized blocks was used to analyze a set of 41 species (total 909 specimens) which were collected during the period of 1961–2000. Results showed that an earlier AFT emerged within 40 years period in comparison to the recorded data of the year of 2000 (0.5 days per year), and that 7.5 days early flowering was contributed by mean summer (i.e., June–August) temperature. It is proposed that temporary shifts in flowering phenology responding to continuing temperature rise could quantify the extent to which climate affects plant species. Analysis of well recorded herbarium specimens could provide a reasonable indication on the impacts of rising temperature on plant phenology. The result of this study could also facilitate a bridge between the scientific knowledge and indigenous knowledge of Tibetan communities.
KeywordsClimate warming Flowering phenology Herbarium specimens Mixed model Tibet autonomous region
We thank all member herbaria of Chinese Virtual Herbarium for their specimen-digitalized contributions and the herbarium (PE), Institute of Botany, Chinese Academy of Sciences (IBCAS). We also take this opportunity to thank Drs. H. Sun, Z. K. Zhou, W. Y. Chen in Kunming Institute of Botany, CAS, Drs. H. N. Qin, L. Q. Li, B. J. Bao, Q. Lin in IBCAS, and Dr. G. Pan in Tibet Agricultural and Animal Husbandry College for their great support over the years. Special thanks are due to those invaluable efforts from many field botanists to herbarium collections in TAR. Their thoughtful suggestions from the anonymous referees and editors led to great improvements of the manuscript. This study was funded by the Ministry of Science and Technology (2007FY110100) and Tibet Biodiversity Assessment project by the Ministry of Environmental Protection of China to X. F. G., the National Natural Science Foundation of China (31150110471) and Chinese Academy of Sciences (XDA05050407) to Y. W.
- Cruz RV, Harasawa H, Lal M, Wu S, Anokhin Y, Punsalmaa B, Honda Y, Jafari M, Li C, Huu Ninh N (2007) Asia. In: Parry ML, Canziani OF, Palutikof JP, van der Linden PJ, Hanson CE (eds) Climate change 2007: impacts, adaptation and vulnerability. Contribution of working group II to the fourth assessment report of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge, pp 469–506Google Scholar
- Du J (2001) Change of temperature in Tibetan Plateau from 1961 to 2000. Acta Geogr Sin 56:682–690Google Scholar
- Hudson IL, Kim SW, Keatley MR (2010) Climatic influences on the flowering phenology of four Eucalypts: a GAMLSS approach phenological research. In: Hudson IL, Keatley MR (eds) Phenological research: methods for environmental and climate change analysis. Springer, Dordrecht, pp 209–228Google Scholar
- Körner C (2003) Alpine plant life: functional plant ecology of high mountain ecosystems, 2nd edn. Springer, BerlinGoogle Scholar
- Salick J, Byg A (2007) Indigenous peoples and climate change. Tyndall Centre, OxfordGoogle Scholar