Notes:

Page 141

Climate Change 2016

October 27-29, 2016

Volume 7, Issue 9(Suppl)

J Earth Sci Clim Change

ISSN: 2157-7617 JESCC, an open access journal

conferenceseries

.com

October 24-26, 2016 Valencia, Spain

World Conference on

Climate Change

Diurnal sap flow measurements and climatic responses of a species growing in a Mediterranean shrub

land

Judith Lize Arnolds

South African National Biodiversity Institute, South Africa

T

he ecological distribution of vegetation types are regulated by climatic conditions and precipitation is one of the most

significant components driving the occurrence and diversity of species. Long-term monitoring and understanding plant

responses to rapid changing environmental conditions are crucial for exploring community dynamics and evaluating the

exposure of species to changes in the climate. In an attempt to assess the resilience of the Mediterranean woody shrub,

P. repens

to drought and temperature, the result of changes in temperature and moisture regime on the photosynthetic capacity and

transpiration dynamics (hydraulic response), by monitoring chlorophyll fluorescence and diurnal monthly sap flow rates, non-

destructively of plants in situ over a climate gradient at different times of the year at Jonaskop, Western Cape. Temperature,

vapor pressure, RH and soil moisture were monitored concomitantly. Changes in stem sap flow rates were measured at hourly

intervals with relative rate sap flow sensors interfaced with loggers installed on the same terminal branches of

P. repens

at each

site along the climate gradient. The sensors were mounted on woody stems ranging from 1-5 mm in diameter. A portable

modulated fluorimeter calculated the effective quantum yields of PSII (∆F/Fm´) in 30 minute dark-adapted

P. repens

leaves.

P.

repens

L. displayed significantly negative correlations between their total daily amplitudes in sap flow and station maximum

daily temperature both in winter, spring, summer and autumn. The leaves of

P. repens

L. displayed significantly negative

correlations between their total daily amplitudes in sap flow and photosynthetic effective quantum yield (∆F/Fm´) at the 5

stations along the gradient during the months of October and November.

Biography

Judith Lize Arnolds holds an MSc degree in Environmental Science from the North West University, South Africa and has just submitted her PhD. She is a scientist

at the South African National Biodiversity Institute in Cape Town, South Africa and is involved in climate change research.

J.Arnolds@sanbi.org.za

Judith Lize Arnolds, J Earth Sci Clim Change 2016, 7:9(Suppl)

http://dx.doi.org/10.4172/2157-7617.C1.028