Meet Inspiring Speakers and Experts at our 3000+ Global Conference Series Events with over 1000+ Conferences, 1000+ Symposiums
and 1000+ Workshops on Medical, Pharma, Engineering, Science, Technology and Business.

Explore and learn more about Conference Series : World's leading Event Organizer

Back

Carmen Postolache

Carmen Postolache

University of Bucharest, Romania

Title: Soil responses to nitrogen addition: Evidence from a natural grassland

Biography

Biography: Carmen Postolache

Abstract

Over the last century, anthropogenic reactive nitrogen flows surpassed natural turnover rates, significantly altering its biogeochemical cycle. Our study focuses on soil responses to nitrogen additions in a natural grassland from Neajlov catchment (Romanian LTSER site). We used plots of 2 m2 for fertilization with NH4NO3 to simulate increased bioavailable nitrogen inputs of 0, 5 and 10 kg/ha/year which were fertilized during summer period. Topsoil samples were monthly collected and analyses were performed in triplicates. For each replicate, we measured pH, soil water and organic matter contents, along with enzymatic rates of nitrate reductase and urease. Inorganic nitrogen species were determined using spectrophotometric methods after extraction with KCl. We assessed the mineralization potential of soil microbial community via ammonium formation under hypoxic conditions. Study showed a slight acidification, more discernable for the highest nitrogen addition. We noted a temporal accumulation of both nitrate and ammonium, especially during fertilization period. As expected, enzymatic rates showed seasonal variation, but we documented lower rates as bioavailable nitrogen increased. We observed strong correlations between soil extracellular enzymes and substrates, which were clearer when warm and cold season were analyzed separately. Urease activity positively correlates with organic matter, R2 values of 0.31 (warm season) and 0.41 (cold season), whereas R2 for nitrate reductase and N-NO3- were 0.49 and 0.47 respectively. Our findings suggest that more subtle responses of nitrogen surplus are found at soil microbial community level and that a natural ecosystem is more able to absorb this type of pressure.