SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2128277136> ?p ?o ?g. }

Showing items 1 to 100 of ±162 with 100 items per page.

W2128277136 endingPage "3645" @default.
W2128277136 startingPage "3632" @default.
W2128277136 abstract "Established forests currently function as a major carbon sink, sequestering as woody biomass about 26% of global fossil fuel emissions. Whether forests continue to act as a global sink will depend on many factors, including the response of aboveground wood production (AWP; MgC ha−1 yr−1) to climate change. Here, we explore how AWP in New Zealand's natural forests is likely to change. We start by statistically modelling the present-day growth of 97 199 individual trees within 1070 permanently marked inventory plots as a function of tree size, competitive neighbourhood and climate. We then use these growth models to identify the factors that most influence present-day AWP and to predict responses to medium-term climate change under different assumptions. We find that if the composition and structure of New Zealand's forests were to remain unchanged over the next 30 years, then AWP would increase by 6–23%, primarily as a result of physiological responses to warmer temperatures (with no appreciable effect of changing rainfall). However, if warmth-requiring trees were able to migrate into currently cooler areas and if denser canopies were able to form, then a different AWP response is likely: forests growing in the cool mountain environments would show a 30% increase in AWP, while those in the lowland would hardly respond (on average, −3% when mean annual temperature exceeds 8.0 °C). We conclude that response of wood production to anthropogenic climate change is not only dependent on the physiological responses of individual trees, but is highly contingent on whether forests adjust in composition and structure." @default.
W2128277136 created "2016-06-24" @default.
W2128277136 creator A5023130995 @default.
W2128277136 creator A5030374604 @default.
W2128277136 creator A5031032521 @default.
W2128277136 creator A5056376620 @default.
W2128277136 creator A5077067062 @default.
W2128277136 creator A5089619012 @default.
W2128277136 date "2014-06-04" @default.
W2128277136 modified "2023-09-30" @default.
W2128277136 title "Wood production response to climate change will depend critically on forest composition and structure" @default.
W2128277136 cites W1516902267 @default.
W2128277136 cites W1569976830 @default.
W2128277136 cites W1724320384 @default.
W2128277136 cites W1882244162 @default.
W2128277136 cites W1964866498 @default.
W2128277136 cites W1972028859 @default.
W2128277136 cites W1974315837 @default.
W2128277136 cites W1975482562 @default.
W2128277136 cites W1992136698 @default.
W2128277136 cites W1994736989 @default.
W2128277136 cites W1995893373 @default.
W2128277136 cites W2002153264 @default.
W2128277136 cites W2008840575 @default.
W2128277136 cites W2017546893 @default.
W2128277136 cites W2022553992 @default.
W2128277136 cites W2027699181 @default.
W2128277136 cites W2029105052 @default.
W2128277136 cites W2029353551 @default.
W2128277136 cites W2031925862 @default.
W2128277136 cites W2034900176 @default.
W2128277136 cites W2045627856 @default.
W2128277136 cites W2046368120 @default.
W2128277136 cites W2047144842 @default.
W2128277136 cites W2057432150 @default.
W2128277136 cites W2069872696 @default.
W2128277136 cites W2080178912 @default.
W2128277136 cites W2081060575 @default.
W2128277136 cites W2081625437 @default.
W2128277136 cites W2083581812 @default.
W2128277136 cites W2085749928 @default.
W2128277136 cites W2089375807 @default.
W2128277136 cites W2093602306 @default.
W2128277136 cites W2097169896 @default.
W2128277136 cites W2097691750 @default.
W2128277136 cites W2098557467 @default.
W2128277136 cites W2100222013 @default.
W2128277136 cites W2100564240 @default.
W2128277136 cites W2101782784 @default.
W2128277136 cites W2104594658 @default.
W2128277136 cites W2106290374 @default.
W2128277136 cites W2106560928 @default.
W2128277136 cites W2109631166 @default.
W2128277136 cites W2111645678 @default.
W2128277136 cites W2112522511 @default.
W2128277136 cites W2114371175 @default.
W2128277136 cites W2114945026 @default.
W2128277136 cites W2115000831 @default.
W2128277136 cites W2117658137 @default.
W2128277136 cites W2118458650 @default.
W2128277136 cites W2119188591 @default.
W2128277136 cites W2119220376 @default.
W2128277136 cites W2119624133 @default.
W2128277136 cites W2126507922 @default.
W2128277136 cites W2127533300 @default.
W2128277136 cites W2129458498 @default.
W2128277136 cites W2130106276 @default.
W2128277136 cites W2130616805 @default.
W2128277136 cites W2133080848 @default.
W2128277136 cites W2133623375 @default.
W2128277136 cites W2135777740 @default.
W2128277136 cites W2136648048 @default.
W2128277136 cites W2137249421 @default.
W2128277136 cites W2137542650 @default.
W2128277136 cites W2140131090 @default.
W2128277136 cites W2145513189 @default.
W2128277136 cites W2146475494 @default.
W2128277136 cites W2151053843 @default.
W2128277136 cites W2151674275 @default.
W2128277136 cites W2153205047 @default.
W2128277136 cites W2153874843 @default.
W2128277136 cites W2153945365 @default.
W2128277136 cites W2155589521 @default.
W2128277136 cites W2158155342 @default.
W2128277136 cites W2167863582 @default.
W2128277136 cites W2168592174 @default.
W2128277136 cites W2169286869 @default.
W2128277136 cites W2170457428 @default.
W2128277136 cites W2241570241 @default.
W2128277136 cites W2494613777 @default.
W2128277136 doi "https://doi.org/10.1111/gcb.12622" @default.
W2128277136 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/24771558" @default.
W2128277136 hasPublicationYear "2014" @default.
W2128277136 type Work @default.
W2128277136 sameAs 2128277136 @default.
W2128277136 citedByCount "82" @default.
W2128277136 countsByYear W21282771362015 @default.
W2128277136 countsByYear W21282771362016 @default.