Abstract
BackgroundLeaf hydraulic and economics traits are critical for balancing plant water and CO2 exchange, and their relationship has been widely studied. Leaf anatomical traits determine the efficiency of CO2 diffusion within mesophyll structure. However, it remains unclear whether leaf anatomical traits are associated with leaf hydraulic and economics traits acclimation to long-term drought.ResultsTo address this knowledge gap, eight hydraulic traits, including stomatal and venation structures, four economics traits, including leaf dry mass per area (LMA) and the ratio between palisade and spongy mesophyll thickness (PT/ST), and four anatomical traits related to CO2 diffusion were measured in tomato seedlings under the long-term drought conditions. Redundancy analysis indicated that the long-term drought decreased stomatal conductance (gs) mainly due to a synchronized reduction in hydraulic structure such as leaf hydraulic conductance (Kleaf) and major vein width. Simultaneously, stomatal aperture on the adaxial surface and minor vein density (VDminor) also contributed a lot to this reduction. The decreases in mesophyll thickness (Tmes) and chlorophyll surface area exposed to leaf intercellular air spaces (Sc/S) were primarily responsible for the decline of mesophyll conductance (gm) thereby affecting photosynthesis. Drought increased leaf density (LD) thus limited CO2 diffusion. In addition, LMA may not be important in regulating gm in tomato under drought. Principal component analysis revealed that main anatomical traits such as Tmes and Sc/S were positively correlated to Kleaf, VDminor and leaf thickness (LT), while negatively associated with PT/ST.ConclusionsThese findings indicated that leaf anatomy plays an important role in maintaining the balance between water supply and CO2 diffusion responses to drought. There was a strong coordination between leaf hydraulic, anatomical, and economical traits in tomato seedlings acclimation to long-term drought.
Highlights
Leaf hydraulic and economics traits are critical for balancing plant water and CO2 exchange, and their relationship has been widely studied
Another set of leaf traits is strongly associated with the balance between the investments and returns for water or nutrient resources and carbon, such as leaf maximum photosynthetic capacity (Amax), leaf dry mass per area (LMA) and leaf nitrogen concentration, which are known as the leaf economic characteristics forming the so-called worldwide leaf economic spectrum [4, 10]
In summary, the results of this study suggested that the decline in gs and transpiration rate (Tr) under the long-term drought condition was mostly responsible for the reduction in stomatal aperture on the adaxial surface primarily due to reduced leaf hydraulic conductance (Kleaf), major vein width and minor vein density
Summary
Leaf hydraulic and economics traits are critical for balancing plant water and CO2 exchange, and their relationship has been widely studied. One set of traits form a group of leaf hydraulic traits, such as stomatal traits and venation traits, which indicate how plants balance water demands and supplies under environmental stresses [3, 8, 9]. Another set of leaf traits is strongly associated with the balance between the investments and returns for water or nutrient resources and carbon, such as leaf maximum photosynthetic capacity (Amax), leaf dry mass per area (LMA) and leaf nitrogen concentration, which are known as the leaf economic characteristics forming the so-called worldwide leaf economic spectrum [4, 10]. Leaf hydraulic and economics traits play a crucial role in influencing material and energy exchange for plant adaptation to climate changes
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