Benefits of large broods by higher chick survival and better territories in a precocial shorebird

When reproductive success is constant in one breeding phase, different tactics that increase variation in reproductive success among individuals may evolve in other phases. For instance, in shorebirds, which usually have a limited clutch size of four eggs, variation in reproductive tactics among individuals is expected either before egg-laying (e.g. diverse mating systems) or after hatching of the young (e.g. diverse parental care). In this paper, I studied the pied avocet (Recurvirostra avosetta), a shorebird with a modal clutch size of four eggs, to test whether post-hatch chick adoption as an alternative tactic can be linked to increased variation in annual reproductive success. When predation was high, naturally adopting pairs produced more filial fledglings than did pairs not adopting chicks and not losing chicks to adoption. The number of filial fledglings increased with the number of adopted young, possibly through diluting the chances of predation on filial young. Experimental chick addition did not lead to more fledged young due to low brood integrity as shown by the frequent loss of chicks from some experimental broods. When predation was low, larger broods occupied feeding territories with higher prey abundance than smaller broods, possibly due to their dominance over smaller ones. Pairs that lost chicks to adoption (donors) fledged as many filial young in their broods as did non-adopters/non-donors, whereas the total number of donors' filial fledglings, including those raised in adopting broods, approached that of adopters. These findings show, for the first time, that post-hatch alternative reproductive tactics can lead to variation in annual reproductive success and to higher success for some pairs even in species where past adaptations limit variation in reproductive success in a certain phase of reproduction

Development of Methods for the Determination of PhACs in Soil/Earthworm/Crop System Irrigated with Reclaimed Water

Pharmaceuticals have been becoming a major concern of environmental pollution since the beginning of the century. The ways in which these contaminants are introduced into the environment are very different, but almost always associated with wastewater. In fact, current wastewater treatment plants are not designed for the removal of pharmaceutical products. Indeed, the problem of water scarcity has played an important role in the introduction of pharmaceutical products into the environment, particularly in the agricultural sector. Because of the drought, more and more countries are resorting to the use of treated wastewater to irrigate vegetables for human consumption. Consequently, the reuse of wastewater in agriculture constitutes a continuous introduction of these molecules into the soil. The effects of this practice are not entirely clear. However, the probability that these compounds can enter the food chain directly is high. In fact, through radical absorption, plants could uptake pharmaceuticals from soil and water, leading to the accumulation of drugs in the tissues. The development of analytical methods of solid matrices such as soil or plant tissues requires substantial work due to the great complexity of the matrices and the differences between the physico-chemical properties of analytes of interest. Several multi-class methods have recently been developed to determine a large number of pharmaceutical products in soil or plants using different extraction techniques. This chapter addresses to list all the analytical procedures published so far used for the extraction and analysis of pharmaceutical products from plant tissues and from the soil irrigated with treated wastewater.This study has been financially supported by the EU through the WaterJPI-2015 AWARE project (PCIN-2017-067). This work was supported by the Spanish Ministry of Science and Innovation (Project CEX2018-000794-S). The authors thank the Water Challenges for a Changing World Joint Programming Initiative.Peer reviewe