Potential microbial bioindicators of phosphorus mining in a temperate deciduous forest.

AIMS: The soil microbial community plays a critical role in increasing phosphorus (P) availability in low-P, weathered soils by "mining" recalcitrant organic P through the production of phosphatase enzymes. However, there is a lack of data on the fungal and bacterial taxa which are directly involved in P mining, which could also serve as potential microbial bioindicators of low P availability. METHODS AND RESULTS: Leveraging a 5-year P enrichment experiment on low-P forest soils, high-throughput sequencing was used to profile the microbial community to determine which taxa associate closely with P availability. We hypothesized that there would be a specialized group of soil micro-organisms that could access recalcitrant P and whose presence could serve as a bioindicator of P mining. Community profiling revealed several candidate bioindicators of P mining (Russulales, Acidobacteria Subgroup 2, Acidobacteriales, Obscuribacterales and Solibacterales), whose relative abundance declined with elevated P and had a significant, positive association with phosphatase production. In addition, we identified candidate bioindicators of high P availability (Mytilinidales, Sebacinales, Chitinophagales, Cytophagales, Saccharimonadales, Opitulales and Gemmatales). CONCLUSIONS: This research provides evidence that mitigating P limitation in this ecosystem may be a specialized trait and is mediated by a few microbial taxa. SIGNIFICANCE AND IMPACT OF THE STUDY: Here, we characterize Orders of soil microbes associated with manipulated phosphorus availability in forest soils to determine bioindicator candidates for phosphorus. Likewise, we provide evidence that the microbial trait to utilize recalcitrant organic forms of P (e.g. P mining) is likely a specialized trait and not common to all members of the soil microbial community. This work further elucidates the role that a complex microbial community plays in the cycling of P in low-P soils, and provides evidence for future studies on microbial linkages to human-induced ecosystem changes.

Effects of restricted feeding and antioxidant supplementation on pig performance and quality characteristics of longissimus dorsi muscle from Landrace and Duroc pigs.

The present study was designed to evaluate the effects of compensatory growth diets with or without antioxidant inclusion (α-tocopheryl acetate (TA) or green tea catechins (GTC)) on pig performance and quality characteristics of longissimuss dorsi (LD) muscle from Landrace or Duroc pigs. Breed did not influence pig performance but had a significant effect on pork quality. Duroc muscle had higher intramuscular fat, ash and monounsaturated fatty acid levels and lower levels of moisture compared to Landrace. Lipid and pigment oxidation levels were higher in meat from Landrace pigs at initial stages of the study. Pigs fed restricted diets had reduced growth rates and lower back fat thickness. Decreasing the duration of energy restriction or significantly increasing dietary energy prior to slaughter resulted in compensatory growth. Supplementing diets with α-TA increased α-tocopherol levels in m. LD. Lipid oxidation levels (TBARS values) remained low throughout refrigerated storage. Dietary treatments did not affect colour stability or compositional analysis. Overall, lipid oxidation was highest in meat from pigs fed diets with greatest energy restriction and lowest in meat from pigs fed diets supplemented with α-TA or GTC.