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Volume 8

Journal of Ecosystem & Ecography

ISSN: 2157-7625

Ecology 2018

March 19-20, 2018

March 19-20, 2018 | Berlin, Germany

World Conference on Ecology

Climate sensitive leaf vein traits of Quercus variabilis

Fan Hao

and

Xiaofeng Zheng

Northwest A&F University, China

Statement of the Problem:

Quercus variabilis is a widely distributed tree species in China. The climatic status in the habitats of

Q. variabilis is changing under global warming in recent years. Plant’s veins provide mechanical supports and mainly occur in the

mesophyll of leaf lamina. Ecological adaption of a given plant in its occurring areas could be reflected by leaf vein characteristics.

The structure, function and development of leaf venation, as well as its ecological traits have been reported for multiple times.

However, the evolution of leaf venation networks in different climatic conditions remains unclear. In this study, we focus on the

correlation of leaf venation characteristics with the climatic status in the habitats of Q. variabilis all across China.

Methodology &Theoretical Orientation:

Leaf samples, a total of 320 samples of Q. variabilis collected from 16 areas in China,

were analyzed with the LEAF GUI software after scanning. The corresponding climatic data, 30 years, from 1986 to 2016, were

extracted from the weather logs based on local meteorological bureaus.

Findings:

Our results show that the vein density, i.e. vein length per area (mm/mm2) and distance between veins (mm) of leaves

are strongly correlated with the mean annual temperature (MAT) and mean annual precipitation (MAP). When the temperature

goes up, the vein density decreases significantly while the distance between veins tends to increase. As to precipitation, it shares

the same trajectory of the temperature.

Conclusion & Significance:

For Q. variabilis, the leaf vein traits are sensitive to the climatic indicator referring to the MAT

and MAP. Q. variabilis cannot be immune to the global climate change, so much more concerns should be given to conserve Q.

variabilis ecological niche.

Recent Publications

1. Caringella M A, Bongers F J and Sack L (2015) Leaf hydraulic conductance varies with vein anatomy across Arabidopsis

thaliana wild-type and leaf vein mutants. Plant Cell & Environment 38(12):2735.

2. Zhang J L, Zhang S B andChen Y J (2015) Nutrient resorption is associatedwith leaf vein density and growth performance

of dipterocarp tree species. Journal of Ecology 103(3):541-549.

3. Qi D D, Lu L and Hu L C (2015) A leaf veins visualization modeling method based on deformation. Communications in

Computer & Information Science 525:340-352.

4. Song L, Hu C and Hou X (2015) Relationship between photosynthetic characteristics and leaf vein density in Sorghum

bicolor and Perilla frutescens. Chinese Bulletin of Botany 50(1):100.

5. De Boer H J, Drake P L and Wendt E (2016) Over-investment in leaf venation relaxes morphological constraints on

photosynthesis in eucalypts. Plant Physiology 172(4).

Biography

Hao Fan, PhD Candidate, majors in ecology, focusing on acclimation; Xiaofeng Zheng, PhD Candidate, majors in ecology, focusing on plant community ecology,

forest soil and plant-soil feedback.

haofan@nwafu.edu.cn

;

xfzheng@nwafu.edu.cn

Fan Hao et al., J Ecosyst Ecography 2018, Volume 8

DOI: 10.4172/2157-7625-C1-033

Figure 1:

Leaf vein traits in correlation with

mean annual temperature (MAT) and mean

annual precipitation (MAP)