Pyrolyzed organic matter, or biochar, generally increases the growth of established plants; in some cases, biochar also promotes seed germination in agricultural species, but comparable effects on tree species have received little attention. Potential biochar effects on seed germination and early seedling development were examined in a field experiment involving 14 species of temperate forest trees. Replicated sets of seeds with and without biochar (at 5 t·ha–1) were placed in mesh bags beneath leaf litter near the time of autumnal leaf fall and retrieved the following spring. Pooled analyses show a positive but small average effect of biochar on germination. Effects on seedling radicle extension growth were more pronounced, with more than a doubling in growth observed overall and large increases observed in some species, including both conifers (e.g., Picea mariana (Mill.) Britton, Sterns & Poggenb. and Pinus resinosa Sol. ex Aiton) and angiosperms (Betula papyrifera Marsh., Prunus virginiana L., and Ulmus americana L.). Species varied in responses, but differences were not related to fire or shade tolerance. The results indicate that biochar can substantially enhance early seedling development in temperate trees; likely mechanisms involve “priming” effects resulting from increased pH and potassium availability or sorption of germination-inhibiting phenolics in the litter layer.
Involvement of type-f thioredoxins during germination and early seedling development and in response to oxidative stress in Arabidopsis thaliana
