Change of trunk sap flow of Ginkgo biloba L. and its response to inhibiting transpiration treatment

Abstract: For this paper, GREENSPAN sap flow system was used to monitor the dynamics of trunk sap flow of Gingkgo biloba. Results indicate that sap flow velocity is significantly different among different heights, depths, and directions of the trunk. Sap flow velocity at the upper position of the trunk is higher than that of the middle and lower position, but cumulative flux is not significantly different among the upper, middle and lower sections. Sap flow velocity at 10 mm reached the most and that at 20 mm the least.… Show more

“…Some error may have been introduced by taking measurements of trees and hedges at different heights, however, it is likely to have affected sap flux density rather than sap flow. Shoujia et al (2007) observed that height of sensor installation along the trunk significantly affected sap flux density, but not cumulative sap flux in Gingko biloba.…”

Manipulating phenology and water relations in Senna spectabilis in a water limited environment in Kenya

“…Some error may have been introduced by taking measurements of trees and hedges at different heights, however, it is likely to have affected sap flux density rather than sap flow. Shoujia et al (2007) observed that height of sensor installation along the trunk significantly affected sap flux density, but not cumulative sap flux in Gingko biloba.…”

Manipulating phenology and water relations in Senna spectabilis in a water limited environment in Kenya

Polycyclic aromatic hydrocarbons (PAHs) pollution recorded in annual rings of gingko (Gingko biloba L.): Translocation, radial diffusion, degradation and modeling