SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2892443826> ?p ?o ?g. }

Showing items 1 to 100 of ±129 with 100 items per page.

W2892443826 endingPage "399" @default.
W2892443826 startingPage "387" @default.
W2892443826 abstract "Chinese pine is one of the major afforestation species in North China, and plantations of this species are of great significance for improving the ecological environment and for conserving soil and water. However, most of the Chinese pine plantations established by the government in the 1970s are mature or nearly mature. Therefore, how to successfully promote natural regeneration has become a major issue in plantation management. We established four types of gaps with different diameters in a plantation in northern China based on the average canopy height (H), i.e., L-I (0.75 H), L-II (1.00 H), L-III (1.25 H), and L-IV (1.50 H). Seven years after gap creation, each gap was divided into four aspects by vertical lines along the main direction of the gap center. Additionally, three sections were partitioned in each gap according to the mean crown radius of the border trees; these sections were the central area of the gap (section B), the inner edge of the gap (section C) and the outer edge of the gap (section D). The results showed that there were no differences in density among gap size classes and gap aspects, but a positive response was observed for regeneration growth. The maximum growth in L-III implied that this gap was the optimal size for promoting the establishment, survival and development of regenerated trees. The highest density and greatest growth occurred mostly along the gap edge. Spatial patterns of abundance were generally concurrent with patterns of regeneration stature (e.g., height) in all tested gaps. However, the spatial distributions of regeneration density and growth exhibited obvious differences in different gap size classes, which likely resulted from heterogeneity in the micro-environment within the gap and the differences in the regeneration responses to these variations. The mark correlation function indicated that spatial autocorrelation characteristics of regeneration growth within gaps and gap sections were mainly independent. Collectively, our findings suggested that the expansion of gaps with continuous monitoring will likely be necessary to promote further canopy recruitment. Additionally, regenerating trees exhibited different spatial distributions and could be more resilient to various interferences. Factors influencing the differences in spatial distribution need to be further studied in light of the relationship between variations in the micro-environment and regeneration responses after gap creation. Moreover, whether large-scale vegetation displacement and reorganization will result from clear cutting these plantations warrants further investigation." @default.
W2892443826 created "2018-10-05" @default.
W2892443826 creator A5010270772 @default.
W2892443826 creator A5036969757 @default.
W2892443826 creator A5038881690 @default.
W2892443826 creator A5044895743 @default.
W2892443826 date "2019-01-01" @default.
W2892443826 modified "2023-09-26" @default.
W2892443826 title "Spatial distribution and growth association of regeneration in gaps of Chinese pine (Pinus tabuliformis Carr.) plantation in northern China" @default.
W2892443826 cites W1818937361 @default.
W2892443826 cites W1974319228 @default.
W2892443826 cites W1976217155 @default.
W2892443826 cites W1988193192 @default.
W2892443826 cites W2003724933 @default.
W2892443826 cites W2006648072 @default.
W2892443826 cites W2012227418 @default.
W2892443826 cites W2015147725 @default.
W2892443826 cites W2015258589 @default.
W2892443826 cites W2026497383 @default.
W2892443826 cites W2047389169 @default.
W2892443826 cites W2048754760 @default.
W2892443826 cites W2052797462 @default.
W2892443826 cites W2054514493 @default.
W2892443826 cites W2055433637 @default.
W2892443826 cites W2055950741 @default.
W2892443826 cites W2056920334 @default.
W2892443826 cites W2059884733 @default.
W2892443826 cites W2061305298 @default.
W2892443826 cites W2061876097 @default.
W2892443826 cites W2065409716 @default.
W2892443826 cites W2068398723 @default.
W2892443826 cites W2069128970 @default.
W2892443826 cites W2076270632 @default.
W2892443826 cites W2077130885 @default.
W2892443826 cites W2077998724 @default.
W2892443826 cites W2079301111 @default.
W2892443826 cites W2091553921 @default.
W2892443826 cites W2097596476 @default.
W2892443826 cites W2097682242 @default.
W2892443826 cites W2099123530 @default.
W2892443826 cites W2103337794 @default.
W2892443826 cites W2107787609 @default.
W2892443826 cites W2110851995 @default.
W2892443826 cites W2122900837 @default.
W2892443826 cites W2126554839 @default.
W2892443826 cites W2133187305 @default.
W2892443826 cites W2140992867 @default.
W2892443826 cites W2151798680 @default.
W2892443826 cites W2157405988 @default.
W2892443826 cites W2157670595 @default.
W2892443826 cites W2169131052 @default.
W2892443826 cites W2181907643 @default.
W2892443826 cites W2322373881 @default.
W2892443826 cites W2398864889 @default.
W2892443826 cites W2479774985 @default.
W2892443826 cites W2551808697 @default.
W2892443826 cites W2610839032 @default.
W2892443826 cites W2754670348 @default.
W2892443826 doi "https://doi.org/10.1016/j.foreco.2018.09.032" @default.
W2892443826 hasPublicationYear "2019" @default.
W2892443826 type Work @default.
W2892443826 sameAs 2892443826 @default.
W2892443826 citedByCount "13" @default.
W2892443826 countsByYear W28924438262021 @default.
W2892443826 countsByYear W28924438262022 @default.
W2892443826 countsByYear W28924438262023 @default.
W2892443826 crossrefType "journal-article" @default.
W2892443826 hasAuthorship W2892443826A5010270772 @default.
W2892443826 hasAuthorship W2892443826A5036969757 @default.
W2892443826 hasAuthorship W2892443826A5038881690 @default.
W2892443826 hasAuthorship W2892443826A5044895743 @default.
W2892443826 hasConcept C101000010 @default.
W2892443826 hasConcept C166957645 @default.
W2892443826 hasConcept C173727882 @default.
W2892443826 hasConcept C18903297 @default.
W2892443826 hasConcept C191935318 @default.
W2892443826 hasConcept C199343813 @default.
W2892443826 hasConcept C205649164 @default.
W2892443826 hasConcept C2777016058 @default.
W2892443826 hasConcept C2778400979 @default.
W2892443826 hasConcept C2908576394 @default.
W2892443826 hasConcept C39432304 @default.
W2892443826 hasConcept C54286561 @default.
W2892443826 hasConcept C56095865 @default.
W2892443826 hasConcept C59822182 @default.
W2892443826 hasConcept C62649853 @default.
W2892443826 hasConcept C71924100 @default.
W2892443826 hasConcept C77077793 @default.
W2892443826 hasConcept C86803240 @default.
W2892443826 hasConcept C97137747 @default.
W2892443826 hasConceptScore W2892443826C101000010 @default.
W2892443826 hasConceptScore W2892443826C166957645 @default.
W2892443826 hasConceptScore W2892443826C173727882 @default.
W2892443826 hasConceptScore W2892443826C18903297 @default.
W2892443826 hasConceptScore W2892443826C191935318 @default.
W2892443826 hasConceptScore W2892443826C199343813 @default.
W2892443826 hasConceptScore W2892443826C205649164 @default.
W2892443826 hasConceptScore W2892443826C2777016058 @default.