| dc.description.abstract |
<p>There is no consensus on climatic warming's effect on phenology, photosynthesis,
and leaf nitrogen content in temperate deciduous tree species. A major question is
whether or how these trees will utilize a longer growing season. Data on leaf photosynthetic
rates, leaf nitrogen content, and leaf phenological status were collected weekly or
biweekly in 2012 for Acer rubrum, Liquidambar styraciflua, Liriodendron tulipifera,
Quercus alba, Quercus rubra, and Fraxinus americana at Duke Forest in Orange County,
North Carolina. Seedlings were grown in open-topped chambers established in 2009
that were maintained at either ambient or 5 degrees Celsius above ambient temperatures.
Half the chambers were shaded, half were under gap conditions. </p><p>Four of six
species had advanced spring phenology with warming treatment, and four of six species
delayed leaf senescence with warming treatment. Shade delayed spring phenology later
more than earlier in the season, and gap conditions delayed fall phenology. Warming
had an inconsistent effect on photosynthetic rate. Two species increased photosynthetic
rate with chambered +5C conditions, another decreased photosynthetic rate in unchambered
plots. Half of the species studied had no significant correlation between temperature
and photosynthetic rate. The timing of photosynthetic decline was simultaneous within
species across warming treatments, even in species which delayed visible senescence
with warming. </p><p>There were major differences between years in terms of the effect
of warming on nitrogen content and resorption. In 2011, percent leaf nitrogen was
lower in warmed chambers, and nitrogen resorption efficiency was not correlated with
warming treatment. In 2012, warmed chambers had higher nitrogen concentration and
a wider range of nitrogen resorption values than ambient, and resorption efficiency
was positively correlated with warming in 2012. It is possible that these differences
between years are driven by differences in availability of soil moisture. 2011 was
much drier during the senescent period than 2012. The direction and magnitude of
warming on nitrogen was consistent within years, but varied by year. </p><p>Warming
often causes visible change in the timing of phenology, but the timing of photosynthetic
decline was unaffected and changes in nitrogen content and resorption were interannually
variable. The benefits of delaying visible senescence are unclear. The effect of
interactions between warming and soil moisture on leaf processes must be explored
further. It is possible that the delay in visible phenology without a concurrent
delay in leaf decline is due to a mismatch in environmental cues under a warmer climate.
Because of the lack of obvious benefit to plant carbon uptake with warming, it is
possible that there is no true extension of the growing season in fall.</p>
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