SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1957856722> ?p ?o ?g. }

Showing items 1 to 100 of ±139 with 100 items per page.

W1957856722 endingPage "100" @default.
W1957856722 startingPage "89" @default.
W1957856722 abstract "Abstract Questions What types of pre‐sowing disturbance are most suitable to establish specialist forbs of calcareous grassland at previously agriculturally improved restored sites? What impact does management regime have on post‐establishment abundance‐dynamics? Location P egsdon H ills, B edfordshire, UK . Methods We set up a 4‐yr experiment using a split‐plot design to combine pre‐sowing disturbance treatments at sub‐plot level (undisturbed control, glyphosate spraying, harrowing, and creation of ridge‐and‐furrow features) with three post‐establishment management regimes applied at main plot level in years 2–4, involving either summer cutting or summer cattle grazing, and presence or absence of spring sheep grazing, along with autumn cattle grazing in all regimes. After disturbance application, we sowed a seed mixture containing ten specialist species of calcareous grassland. Using quadrat‐based methods, we monitored first‐year establishment and subsequent dynamics, including reproductive status of species at quadrat level. Initial establishment and subsequent dynamics were analysed separately using LMM . Results Initial establishment of sown species was promoted both by harrowing and by ridge‐and‐furrow creation. While some species were about equally promoted by both, several other species benefited more strongly or exclusively from ridge‐and‐furrow creation. Effects of disturbance largely persisted in subsequent years, but for some species, different dynamics were observed for harrowed and ridge‐and‐furrow treatments. Thymus pulegioides and Hippocrepis comosa gradually achieved higher abundances in the ridge‐and‐furrow treatment, in which notable levels of bare ground persisted for much longer than in the harrowed treatment. In contrast, Filipendula vulgaris and Pimpinella saxifraga achieved higher abundance in the harrowed treatment. Sown species tended to reach reproductive stage faster in the ridge‐and‐furrow treatment than in the harrowed treatment. By the end of the study, management regimes had resulted in few effects on species dynamics. Conclusions Establishment of specialist species of calcareous grassland crucially depended on bare ground creation prior to sowing. Ridge‐and‐furrow creation resulted in more persistent reduction of competition than the standard practice of harrowing, provided more suitable conditions for low‐statured specialist species, and generally enabled faster transition of introduced specialist species to reproductive stage. Our results thus illustrate potential benefits of using more severe disturbance when introducing specialist species of calcareous grassland at restored sites." @default.
W1957856722 created "2016-06-24" @default.
W1957856722 creator A5010840659 @default.
W1957856722 creator A5013800723 @default.
W1957856722 creator A5019283214 @default.
W1957856722 creator A5023612684 @default.
W1957856722 creator A5024259619 @default.
W1957856722 creator A5041764112 @default.
W1957856722 creator A5049439771 @default.
W1957856722 creator A5050335100 @default.
W1957856722 creator A5066709672 @default.
W1957856722 creator A5084743447 @default.
W1957856722 date "2015-08-31" @default.
W1957856722 modified "2023-10-04" @default.
W1957856722 title "Creation of micro-topographic features: a new tool for introducing specialist species of calcareous grassland to restored sites?" @default.
W1957856722 cites W1489838709 @default.
W1957856722 cites W1511068236 @default.
W1957856722 cites W1844140921 @default.
W1957856722 cites W1916719006 @default.
W1957856722 cites W1972252461 @default.
W1957856722 cites W1974340808 @default.
W1957856722 cites W1978472380 @default.
W1957856722 cites W1990375758 @default.
W1957856722 cites W1993756412 @default.
W1957856722 cites W1993987559 @default.
W1957856722 cites W1995790593 @default.
W1957856722 cites W1998912421 @default.
W1957856722 cites W2006616016 @default.
W1957856722 cites W2007298627 @default.
W1957856722 cites W2017106952 @default.
W1957856722 cites W2021492585 @default.
W1957856722 cites W2022722434 @default.
W1957856722 cites W2024131849 @default.
W1957856722 cites W2043661337 @default.
W1957856722 cites W2051805085 @default.
W1957856722 cites W2053965716 @default.
W1957856722 cites W2058964353 @default.
W1957856722 cites W2059196505 @default.
W1957856722 cites W2065527896 @default.
W1957856722 cites W2074034557 @default.
W1957856722 cites W2077348432 @default.
W1957856722 cites W2088479873 @default.
W1957856722 cites W2093923729 @default.
W1957856722 cites W2094858089 @default.
W1957856722 cites W2098899763 @default.
W1957856722 cites W2099978526 @default.
W1957856722 cites W2104948548 @default.
W1957856722 cites W2115303275 @default.
W1957856722 cites W2128216182 @default.
W1957856722 cites W2129023025 @default.
W1957856722 cites W2142635246 @default.
W1957856722 cites W2146800763 @default.
W1957856722 cites W2149725099 @default.
W1957856722 cites W2150760123 @default.
W1957856722 cites W2161276250 @default.
W1957856722 cites W2164506854 @default.
W1957856722 cites W2171031840 @default.
W1957856722 cites W2318190961 @default.
W1957856722 cites W2323559130 @default.
W1957856722 cites W2332851102 @default.
W1957856722 cites W640876663 @default.
W1957856722 cites W93127142 @default.
W1957856722 doi "https://doi.org/10.1111/avsc.12198" @default.
W1957856722 hasPublicationYear "2015" @default.
W1957856722 type Work @default.
W1957856722 sameAs 1957856722 @default.
W1957856722 citedByCount "28" @default.
W1957856722 countsByYear W19578567222016 @default.
W1957856722 countsByYear W19578567222017 @default.
W1957856722 countsByYear W19578567222018 @default.
W1957856722 countsByYear W19578567222019 @default.
W1957856722 countsByYear W19578567222020 @default.
W1957856722 countsByYear W19578567222021 @default.
W1957856722 countsByYear W19578567222023 @default.
W1957856722 crossrefType "journal-article" @default.
W1957856722 hasAuthorship W1957856722A5010840659 @default.
W1957856722 hasAuthorship W1957856722A5013800723 @default.
W1957856722 hasAuthorship W1957856722A5019283214 @default.
W1957856722 hasAuthorship W1957856722A5023612684 @default.
W1957856722 hasAuthorship W1957856722A5024259619 @default.
W1957856722 hasAuthorship W1957856722A5041764112 @default.
W1957856722 hasAuthorship W1957856722A5049439771 @default.
W1957856722 hasAuthorship W1957856722A5050335100 @default.
W1957856722 hasAuthorship W1957856722A5066709672 @default.
W1957856722 hasAuthorship W1957856722A5084743447 @default.
W1957856722 hasBestOaLocation W19578567222 @default.
W1957856722 hasConcept C107394435 @default.
W1957856722 hasConcept C150117547 @default.
W1957856722 hasConcept C150436541 @default.
W1957856722 hasConcept C151730666 @default.
W1957856722 hasConcept C168741863 @default.
W1957856722 hasConcept C18903297 @default.
W1957856722 hasConcept C2775835988 @default.
W1957856722 hasConcept C2777601987 @default.
W1957856722 hasConcept C2777904157 @default.
W1957856722 hasConcept C2778091200 @default.
W1957856722 hasConcept C32277403 @default.
W1957856722 hasConcept C39432304 @default.