Abstract
Calligonum mongolicum is a dominant native perennial shrub on sand dunes in arid deserts of northwestern China, and is therefore widely used in sand dune stabilization in these regions. However, it remains largely unknown how seedling emergence of C. mongolicum has adapted to unpredictable sand movement and extreme drought. Here we examined effects of seed burial depth, light intensity, and seed age on seedling emergence, and considered seed germination and seedling emergence strategies for the shrub’s adaption to the desert environment. In our pot experiment, the optimum seeding depth for emergence of C. mongolicum was 2 cm, indicating that for germination and seedling emergence only moderate sand burial is required. Light intensity at the surface soil (0 cm) was important for seedling emergence, while there was no significant difference between 50 and 20% light flux density, at burial depths of 1 and 2 cm, indicating that C. mongolicum seeds had adapted to sand burial, while not exposure from sand erosion. We also found C. mongolicum seedlings emerged in spring and in late summer to early autumn. Meanwhile, seedling emergence percentage for 3-year-old seeds was similar to that of 1-year-old seeds, which meant that C. mongolicum seeds were well preserved under normal sand dune conditions, thus were capable of developing a persistent, but shallow soil seed-bank. These results indicated that germination and seedling emergence take a bet-hedging strategies to adapt to variable desert environments. Our study confirmed that C. mongolicum desert shrubs combine strategies in its adaption to arid and variable sand environments.
Highlights
Understanding how organisms cope with and adapt to changes in their environments is a central theme to evolutionary ecology (Botero et al, 2015)
Seeding depth had a significant effect on seedling emergence of C. mongolicum, while emergence was not affected by light intensity or the interaction of light intensity and seed burial depth (Table 2)
Seedling emergence experiments under different light densities showed that seedlings failed to germinate placed on the sand surface (0 cm) in 100% light flux density (LFD) treatments, but emerged in 50 and 20% LFD with no significant difference between the two treatments, and both were not significantly different from that observed in 100% LFD (CK) (Figure 3)
Summary
Understanding how organisms cope with and adapt to changes in their environments is a central theme to evolutionary ecology (Botero et al, 2015). Calligonum mongolicum Seedling Emergence in Deserts germination patterns determine a species’ adaptation to various environments and allows us to explain and predict ecological dynamics (Huang et al, 2016). Seeds and plants often face varying degrees of sand burial and exposure by wind erosion, their ability to respond to these environmental cues is of great importance for successful seed germination, seedling emergence, and initial establishment, which may affect population viability. Sand burial and exposure from wind erosion can affect these factors in the microenvironment of dune plants (Poulson, 1999; Qu et al, 2014), which may influence seed germination and seedling emergence of the plants. Tolerance to burial was found to differ considerably among species, burial was considered an important selective force (Maun, 2004; Dech and Maun, 2005; Liu et al, 2007; Xu et al, 2013)
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