Opuntia is the most diverse and widespread genus in the Cactaceae; several species have broad distribution ranges and have successfully adapted to distinct habitats. One explanation for their success is the diversity of their reproductive systems. Opuntia macrocentra is one of the most common widespread species in North American deserts. A previous work on a northern population documented that this species has a mixed‐mating system and receives a low frequency of pollinators. In a southern population of O. macrocentra, we described its floral visitors, anthesis schedules and flower morphometry. Through controlled pollination experiments (selfing, outcrossing, supplementary pollen and natural pollination), we assessed the breeding and mating systems and measured pollen limitation. Eight different bee species visited the flowers. Based on their conduct, Diadasia rinconis and Lasioglossum sp. were the main pollinators. Flowers were homogamous and herkogamous. Floral traits and pollination experiments showed that O. macrocentra is xenogamous and self‐incompatible. Fruit set of the natural pollination, outcrossing and supplementary pollen treatments were not statistically different. Seed set was higher in natural pollination and the pollen limitation index for seed set was negative. Based on these results, we conclude that O. macrocentra is not pollen limited in the studied population. These results contrast with those of the previously studied population; therefore, we caution about making generalizations about the reproductive system based solely on studies in one population. The diversity of mating systems displayed by O. macrocentra may explain its broad distribution and adaptation to different environmental factors, one of which may be pollinator availability. Our results highlight the need to describe the reproductive ecology of populations instead of species, because reproductive systems and ecological factors such as plant–animal interactions may differ across their distribution range.
Seed and seedling are the most critical stages of 1 cacti life cycle. From the thousands of seeds produced in a 2 reproductive season, only a small fraction gets to germinate, 3 the rest gets lost due to predation or gets potentially buried 4 in the seed bank. These early stages depend on facilitation by 5 nurse plants for germination and seedling recruitment. In this 6 paper, we aim to describe some aspects of the recruitment of 7 Cephalocereus polylophus. We tested the viability of seeds 8 with different storage times as an indicator of their potential 9 to form a short-term seed bank. Through the analysis of 10 seed germination and seedlings survival under the canopy of 11 two nurse plant species and open areas, we aimed to assess 12 the importance of facilitation for recruitment. A predator 13 exclusion experiment was used to evaluate the intensity of 14 herbivory on seeds and seedlings of different developmental 15 stages. Seeds had germination rates above 90%, even after 16 two years of storage. Seed germination was only registered 17 under one of the two nurses. After two years, up to 19% 18
Background and aims – Understanding the traits that lead to the invasion potential of invasive alien species (IAS) provides insight for their management. The reproductive traits of IAS help us understand the mechanisms that allow for their invasive potential, and colonization into new ranges. Asphodelus fistulosus is a native Mediterranean species commonly found invading Australia, South-East Asia, South Africa, and North America. Materials and methods – Two populations of A. fistulosus in the Chihuahuan Desert were monitored for reproductive phenology. Floral visitors and their behaviour were described, and we assessed the breeding system through floral morphological characters and the mating system in controlled pollination experiments. Key results – Reproductive phenology showed continuous reproduction throughout the year. Floral morphology suggested a facultative autogamous breeding system, but the mating system was mixed with autonomous selfing. Flowers lasted one day, with anthesis lasting 11 h. Floral visitors of A. fistulosus consisted of a variety of taxa including species of Coleoptera, Hymenoptera, and Lepidoptera, the exotic Apis mellifera being the most frequent visitor. Conclusions – The reproductive traits of A. fistulosus in the invaded range provide the biological potential for further invasion. The continuous production of reproductive structures attracts many diverse pollinators, and the autonomous self-pollination implies that a single plant has the potential to develop a new population, which makes the control of this IAS a global challenge.
Seed and seedling are the most critical stages of cacti life cycle. From the thousands of seeds produced in a reproductive season, only a small fraction gets to germinate, the rest gets lost due to predation or gets potentially buried in the seed bank. These early stages depend on facilitation by nurse plants for germination and seedling recruitment. In this paper, we aim to describe some aspects of the recruitment of Cephalocereus polylophus. We tested the viability of seeds with different storage times as an indicator of their potential to form a short-term seed bank. Through the analysis of seed germination and seedlings survival under the canopy of two nurse plant species and open areas, we aimed to assess the importance of facilitation for recruitment. A predator exclusion experiment was used to evaluate the intensity of herbivory on seeds and seedlings of different developmental stages. Seeds had germination rates above 90%, even after two years of storage. Seed germination was only registered under one of the two nurses. After two years, up to 19% of the seedlings planted under both nurse plants survived. Protection against herbivores increased survival chances from 30 to 52 % for all age-group seedlings. Considering that facilitation is a crucial interaction for C. polylophus, future conservation programs should include the protection of plant communities.
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