The purpose of this study is to compare the stomatal conductance and xylem water potential between adults and resprouts of Malosma laurina growing at the Drescher Campus at Pepperdine University. Our data suggest that stomatal conductance and xylem water potential of adult and resprout M. laurina are not significantly different (p = 0.09312, p = 0.7064 respectively), implying that M. laurina at that study site has had sufficient time to recover from the drought due to the increased levels of rainfall
Malosma laurina is a species of chaparral shrub that dominates coastal exposures of the Santa Monica...
Widespread Malosma laurina (Laurel Sumac) dieback is occurring throughout the Santa Monica Mountains...
The purpose of this study is to examine the water potential of Malosma laurina at different elevatio...
The purpose of this study is to compare the stomatal conductance and xylem water potential between a...
After 5 years of drought, southern California has recently experienced increases in precipitation. M...
Malosma laurina, commonly known as Laurel Sumac, is an important species because of its ability to p...
The experiment aimed to look at the comparison between the nighttime stomatal conductance of Malosma...
Observations of Malosma laurina seedlings in Sycamore Canyon, Malibu, CA, exhibit abnormally small a...
Malosma laurina is a dominant species in coastal chaparral ecosystems The deep root systems of M. la...
A Comparison of Water Potential, Photosynthetic Rate, Electron Transport Rate, and Stomatal Conducta...
Malosma laurina (laurel sumac) is a dominant species in coastal chaparral ecosystems, extending its ...
Schinus molle is a relatively new invasive species in chaparral shrub communities of the Santa Monic...
The purpose of this experiment was to see if there was a correlation between water potential and the...
Drought induced deformations in the chaparral plant Malosma laurina were observed following the lack...
In our experiment we evaluated the soil salinity and corresponding stomatal conductance rates of Mal...
Malosma laurina is a species of chaparral shrub that dominates coastal exposures of the Santa Monica...
Widespread Malosma laurina (Laurel Sumac) dieback is occurring throughout the Santa Monica Mountains...
The purpose of this study is to examine the water potential of Malosma laurina at different elevatio...
The purpose of this study is to compare the stomatal conductance and xylem water potential between a...
After 5 years of drought, southern California has recently experienced increases in precipitation. M...
Malosma laurina, commonly known as Laurel Sumac, is an important species because of its ability to p...
The experiment aimed to look at the comparison between the nighttime stomatal conductance of Malosma...
Observations of Malosma laurina seedlings in Sycamore Canyon, Malibu, CA, exhibit abnormally small a...
Malosma laurina is a dominant species in coastal chaparral ecosystems The deep root systems of M. la...
A Comparison of Water Potential, Photosynthetic Rate, Electron Transport Rate, and Stomatal Conducta...
Malosma laurina (laurel sumac) is a dominant species in coastal chaparral ecosystems, extending its ...
Schinus molle is a relatively new invasive species in chaparral shrub communities of the Santa Monic...
The purpose of this experiment was to see if there was a correlation between water potential and the...
Drought induced deformations in the chaparral plant Malosma laurina were observed following the lack...
In our experiment we evaluated the soil salinity and corresponding stomatal conductance rates of Mal...
Malosma laurina is a species of chaparral shrub that dominates coastal exposures of the Santa Monica...
Widespread Malosma laurina (Laurel Sumac) dieback is occurring throughout the Santa Monica Mountains...
The purpose of this study is to examine the water potential of Malosma laurina at different elevatio...
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