Abstract
We studied the germination of Eriotheca vargasii (Malvaceae), a poorly known endemic Peruvian Andean tree species characteristic of the dry forests of the Torobamba river valley. We determined seed characteristics, embryo morphology, viability, and assessed the influence of substrate (natural soil and commercially prepared media), temperature (controlled at 25 ºC and at ambient temperature between 18-22 ºC), and moisture (25 % and 50 % field capacity) on seed germination. Although most seeds were ovoid in shape and contained well-developed embryos, only 46% of them were viable. Substrate moisture levels had no influence on germination capacity or rate. In contrast, temperature and substrate type showed strong effects on germination. We observed the highest proportion of germinated seeds in prepared media at both temperatures tested (> 61 %). Furthermore, substrate types also influenced germination rates, with lower values in natural soil. The strongest effect on germination rates was by temperature, enhancing the difference in responses in substrate types. The low proportion of germinated seeds in soil (< 39 %), together with external local stress factors (e.g. grazing impact by herbivores), may be the critical factors contributing to the nearly total absence of seedlings and saplings of E. vargasii in the study area despite abundant seed production.
Highlights
Seedlings growing in the seasonally dry tropics face challenging conditions such as seasonal water deficits, high insolation, high temperatures and transpiration rates (Harms & Paine, 2003; García-Núñez, & Azócar, 2004)
We studied the germination of Eriotheca vargasii (Malvaceae), a poorly known endemic Peruvian Andean tree species characteristic of the dry forests of the Torobamba river valley, Peru
We found that most seeds were ovoid in shape (90 %), and recorded spherical (4 %) and elliptic (6 %) seeds
Summary
Seedlings growing in the seasonally dry tropics face challenging conditions such as seasonal water deficits, high insolation, high temperatures and transpiration rates (Harms & Paine, 2003; García-Núñez, & Azócar, 2004). Seedlings from most woody species from seasonally dry vegetation in Bolivia, Brazil and Venezuela are capable of rapidly accumulating root biomass in the form of a strong taproot system or of water storage organs during their first rainy season to survive the following dry season (Moreira & Klink, 2000; García-Núñez & Azócar, 2004; Poorter & Markesteijn, 2008). With the aims of 1) identifying if the seed germination process in E. vargasii could be a factor to be considered in explaining the observed population structure of this tree species as reported above, 2) contributing to the seed ecology of E. vargasii, and 3) providing recommendations for successful E. vargasii seed germination, we present here a study assessing its seed characteristics, seed viability, and optimal conditions for germination in relation to substrate, ambient temperature and moisture
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