Strzeszczenie. Drzewa należące do rodziny Taxodiaceae są rzadko uprawiane w polskich warunkach klimatycznych ze względu na ich pochodzenie z cieplejszych regionów świata. Celem niniejszej pracy było opracowanie stanu odżywienia drzew z rodziny Taxodiaceae rosnących zarówno na terenach Wrocławia, które zachowały cechy pierwotnych lasów łęgowych oraz grądowych, jak i rosnących na stanowiskach przekształconych antropogenicznie. W 2013 roku na terenie Wrocławia zlokalizowano 3 stanowiska szydlicy japońskiej, gdzie rosły 3 drzewa. Metasekwoja chińska rosła na 2 stanowiskach, gdzie łącznie było 9 drzew. Odnotowano sześć stanowisk cypryśnika błotnego, gdzie rosło 11 drzew. Pomimo różnic w zawartości chlorofilu i poziomu odżywiania żadne z drzew nie wykazywało widocznych niedoborów składników pokarmowych. Wyniki wskazują, że drzewa z rodziny Taxodiaceae mogą rosnąć na terenach zieleni miasta Wrocławia.
The aim of this research was to assess the influence of fresh miscanthus straw shreds as a component of growing media in nursery production of perennial Sedum spectabile ‘Stardust’ and woody shrub Hydrangea arborescens ‘Annabelle’. A total of five substrate mixes composed of peatmoss and miscanthus straw were used: 100%P, 70%P:30%M, 50%P:50%M, 70%P:30%M, 100%M. Each substrate was subjected to three fertilizer treatments: Basacote, Basacote + YaraMila, and YaraMila. The growth response of both tested species was very similar. In general, plants performed best in 100%P, and the quality decreased with increasing miscanthus straw amendment; however, differences in height and dry weight at the level of ~9% suggest that Sedum plants obtained market value with up to 50% miscanthus amendment and Hydrangea plants with up to 30% miscanthus mixed in media. The most favorable effect on the tested parameters was a combination of Basacote + YaraMila, which delivered more soluble salts, and in higher rates than Basacote and YaraMila used separately. Decrease in EC and nutrients in the substrate with increase in miscanthus straw amendment suggest that uniform irrigation among all the treatments contributed to nutrients leaching from miscanthus media due to its lower water holding capacity.
Stability of substrate pH in container-grown crops is important for proper nutrient management. The objective of this research was to determine the pH buffering capacity of pine bark substrates as a function of particle size and compare those results to sphagnum peat. The weight equivalent of 100 cm3 for fine, medium, and coarse pine bark and sphagnum peat, either as a whole or partitioned into several particle size ranges, was placed in a 250-mL glass jar and filled with 100 mL of an acid or base solution ranging from 0 to 50 meq·L−1 in 10 meq·L−1 increments. After 24 hours, pH was measured. An experiment was also conducted in the greenhouse. The weight equivalent of 500 cm3 of sphagnum peat, fine pine bark, or coarse pine bark was filled into 10-cm plastic pots and irrigated with one of the following: tap water or 10 meq·L−1 of HCl, NaOH, H2SO4, or KHCO3 and with or without a water soluble fertilizer. Substrate pH was determined 4 and 8 weeks after potting using the pour-through method. In all experiments, sphagnum peat had less buffering capacity than pine bark against pH changes from acidic solutions, whereas pine bark had less buffering capacity than sphagnum peat to pH changes from basic solutions. Substrate pH buffering in pine bark increased with decreasing particle size, whereas pH buffering in sphagnum peat was less responsive to particle size. These results will help growers and substrate manufacturers understand how substrate components contribute to pH management during crop production.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.