ESTABILIDAD ESPACIO-TEMPORAL Y FUNCION DE LAS INTERACCIONES PLANTA-POLINIZADOR ANTE PRESIONES DE USO DEL SUELO Y CLIMATICAS: FLEXIBILIDAD DE NICHO Y VARIACION INTRAESPECIFICA
Pollination is an essential
ecosystem service, as ca. 90% of flowering plants and two-thirds of cultivated species
depend on it. However, wild pollinators and the pollination service they
provide are severely threatened by land-use and climate changes, and this trend
is expected to accentuate in the following decades as human population
increases. In FUNLAND, we propose to
combine state of the art methodologies with detailed information on
interactions, reproductive success, and traits (at the species, individual, and
intra-individual levels), to evaluate how interacting stressors such as habitat
loss and climate change influence the spatio-temporal stability of the
pollination service through changes in intra- and inter-specific functional
traits in the communities. For this, we will use new data gathered in this
project together with long-term interaction data previously collected in two
study systems (in total: 5-year data on plant-pollinator interactions in 18
communities in Mallorca island; and 5-31-year data on plant-butterfly
interactions in 20 Catalonian and Balearic communities). FUNLAND is structured around five work packages
related to five specific objectives. First,
by using methodologies of network dynamics and probability matrices, we will investigate
the effects of habitat loss and climate change on the spatio-temporal variation
of interactions at the community level, and on the relative importance of
phenological overlap and trait-matching determining the structure of
interactions. Second, we will evaluate the role of intraspecific trait variability on
community-level interactions. For this,
we will construct individual networks based on the
pollen grains carried by pollinators and relate the role of individual
pollinators to their functional traits. Besides, we will conduct observations
focused on individual plants to understand how trait-matching between
individual plants and their individual pollinators influences interactions and reproductive
success. Third, we will use experimental shelters to simulate drought in the
field and evaluate the role of floral plasticity on intraspecific variation,
community-level interactions, and plant fitness, in a cross-combination of
habitat loss and climate change experiment. Fourth, we will assess the link between the spatio-temporal
changes in interactions and community stability and resilience. Particularly, using c. 30-year data of plant-butterfly of Catalonia, we will evaluate
the ecological resilience of pollination communities, as well as the resistance
and recovering of butterflies and their interactions against land-use and
climatic disturbances in relation to species traits and interactions’
trait-matching. Fifth, using data on 18 communities of Mallorca, we will
evaluate the extent to which function (seed production) is related to the
stability of species, traits, and interactions in communities under land-use
and climatic pressures. FUNLAND
may suppose a significant advance in the understanding of the mechanisms that
communities have to adapt to new anthropogenic changes, as it will show the
extent to which intraspecific trait variability and niche flexibility may
buffer the negative effects of land-use and climate pressures by increasing the
stability, resilience and function of pollination interactions. Lastly, this
project will shed light to the synergies between land-use and climate pressures
affecting the pollination service.