LEADER 08322nam 22006854a 450 001 9910828407803321 005 20240513074447.0 010 $a1-282-15602-0 010 $a9786612156021 010 $a90-272-9372-4 035 $a(CKB)1000000000244051 035 $a(OCoLC)191952117 035 $a(CaPaEBR)ebrary10126064 035 $a(SSID)ssj0000136950 035 $a(PQKBManifestationID)11158697 035 $a(PQKBTitleCode)TC0000136950 035 $a(PQKBWorkID)10084378 035 $a(PQKB)10655903 035 $a(MiAaPQ)EBC622438 035 $a(Au-PeEL)EBL622438 035 $a(CaPaEBR)ebr10126064 035 $a(CaONFJC)MIL215602 035 $a(OCoLC)705531080 035 $a(EXLCZ)991000000000244051 100 $a20051001d2005 uy 0 101 0 $aeng 135 $aurcn||||||||| 181 $ctxt 182 $cc 183 $acr 200 10$aDeriving coordinate symmetries $ea phase-based approach integrating select, merge, copy and match /$fJohn R. te Velde 205 $a1st ed. 210 $aAmsterdam ;$aPhiladelphia $cJ. Benjamins Pub. Co.$d2005 215 $a1 online resource (395 p.) 225 1 $aLinguistik aktuell =$aLinguistics today,$x0166-0829 ;$vv. 89 300 $aBibliographic Level Mode of Issuance: Monograph 311 $a90-272-3353-5 320 $aIncludes bibliographical references (p. [359]-370) and indexes. 327 $aDeriving Coordinate Symmetries -- Editorial page -- Title page -- LCC data -- Table of contents -- Abbreviations -- Outline of the study -- 1.1. Introduction -- 1.2. Features and matching in coordination -- 1.3. Merge and phase in the derivation of coordinate structures -- 1.4. Ellipsis in conjunction -- 1.5. Coordinate ellipsis and the structure of Germanic -- Features and matching in coordination -- 2.1. Coordinate Feature Matching (CFM) -- 2.2. Features in syntax vs. in coordination -- 2.3. Features in coordination -- 2.3.1. Symmetry and features in conjunction: questions raised -- 2.3.2. Asymmetry and features in coordination -- 2.3.3. Configurations and agreement in coordinate structures -- 2.3.4. Configurations and (a)symmetry in coordinate structures -- 2.4. Feature matching in derivation -- 2.4.1. CFM within a derivational model -- 2.4.2. On the syntax and semantics of [& -- ] -- 2.4.3. Some semantic issues of coordination and agreement -- 2.4.4. The core relations and their features in coordinate symmetry -- 2.4.5. Independent support for CFM from experiments -- 2.4.6. Deriving coordinate symmetry -- 2.4.7. Feature matching and structural isometricity -- 2.5. Feature matching and configurations -- 2.5.1. Camacho (2000) on syntactic symmetries in coordination -- 2.5.2. An alternate proposal -- 2.5.3. Symmetry and sharing in conjoined clauses -- 2.5.4. Feature matching in certain asymmetric constructions -- 2.5.5. weil+V2: Conjunction-clause and syntax-semantics mismatches -- 2.5.6. Summarizing the mismatches -- 2.6. Symmetry within asymmetry through Select, Copy and Match -- 2.7. Chapter summary and conclusions -- Deriving coordinate structures -- 3.1. Some background -- 3.2. Binary phrase structure, asymmetry and coordination -- 3.3. Coordination in the Spec-head-complement model -- 3.3.1. Move alpha not required in conjunction. 327 $a3.3.2. Unbalanced coordination -- 3.4. Properties of [& -- ] and clausal conjuncts -- 3.4.1. [& -- ] does not project a phrase -- 3.4.2. [& -- ] does not assign or check Case -- 3.4.3. Non-projecting [& -- ] and asymmetric agreement -- 3.4.4. Not all coordinate constructions are CP-based -- 3.5. Conjunction as a pure Merge operation -- 3.5.1. Steps in conjunction -- 3.5.2. Comparing conjunction by pure Merge to other models -- 3.5.3. Solutions available in a phase-based model -- 3.5.4. The role of CFM in a derivational model -- 3.5.5. Feature Matching in conjunction vs. in simplex sentences -- 3.5.6. Selection and sequence issues -- 3.6. An account of breakdown in agreement using a CFM-based derivational model -- 3.6.1. Abstract, morphological and default Case -- 3.6.2. Symmetry and derivational economy -- 3.6.3. Breakdown and prescriptiveness in English -- 3.7. Chapter conclusion -- Deriving coordinate ellipsis -- 4.0. Introduction -- 4.1. Some core properties of and basic assumptions about ellipsis -- 4.1.1. Core properties -- 4.1.2. Parallelism: Its properties, source and role in coordinate ellipsis -- 4.1.3. Coordinate ellipsis, matching and sloppy identity -- 4.1.4. Asymmetry versus coordinate symmetry: Gap or no gap? -- 4.2. Licensing of gaps -- 4.2.1. Williams' proposal and an alternative -- 4.2.2. Licensing locally by a lexical head at the left edge -- 4.2.3. Licensing locally by a prosodic feature at the right edge -- 4.2.4. Licensing by a prosodic feature conjunct-internally -- 4.3. Recovery of gaps by matching in LF -- 4.3.1. Recovery in LEE -- 4.3.2. Recovery in RNR -- 4.3.3. Recovery in Gapping -- 4.4. VPE -- 4.4.1. Binding, not matching -- 4.4.2. Some additional contrasts and a conclusion -- 4.5. Coordinate ellipsis and derivation by phase with Copy and Match -- 4.5.1. Deriving coordinate ellipsis. 327 $a4.5.2. Symmetric ellipsis in non-coordinate structures -- 4.5.3. ATB phenomena and the CSC: Ross's generalization and what it accounts for -- 4.5.4. Comparing the parasitic gap construction to the ATB construction -- 4.6. Chapter summary and conclusion -- Coordinate ellipsis and the structure of West Germanic -- 5.0. Introduction -- 5.1. The left edge and coordinate ellipsis -- 5.1.1. LEE and the left edge in Germanic: Reviewing the data -- 5.1.2. Büring and Hartmann (1998) on left-edge subject gaps -- 5.1.3. Comparing a VPR account of left-edge subject gaps -- 5.1.4. Phase Theory, subject-object asymmetries and LEE -- 5.2. Other types of coordinate ellipsis and the West Germanic CP-domain -- 5.2.1. RNR and subject-object asymmetries -- 5.2.2. Gapping, RNR and subject-object asymmetries -- 5.3. Coordination and a finely-structured CP-domain -- 5.4. Gapping and the structure of the German VP -- 5.5. Chapter conclusion -- Notes -- Chapter 1 -- Chapter 2 -- Chapter 3 -- Chapter 4 -- Chapter 5 -- References -- Appendix -- Left-Edge Subject Deletion -- Left-Edge Direct-Object Deletion -- Left-Edge Indirect-Object Deletion -- Gapping -- Right-Edge Ellipsis (a.k.a. RNR -- some sentences also have Gapping) -- Note -- Name index -- Subject index -- The series Linguistik Aktuell/Linguistics Today. 330 $aThis monograph proposes a minimalist, phase-based approach to the derivation of coordinate structures, utilizing the operations Copy and Match to account for both the symmetries and asymmetries of coordination. Data are drawn primarily from English, German and Dutch. The basic assumptions are that all coordinate structures are symmetric to some degree (in contrast to parasitic gap and many verb phrase ellipsis constructions), and these symmetries, especially with ellipsis, allow syntactic derivations to utilize Copy and Match in interface with active memory for economizing with gaps and assuring clarity of interpretation. With derivations operating at the feature level, troublesome properties of coordinate structures such as cross-categorial and non-constituent coordination, violations of the Coordinate Structure Constraint, as well as coordinate ellipsis (Gapping, RNR, Left-Edge Ellipsis) are accounted for without separate mechanisms or conditions applicable only to coordinate structures. The proposal provides support for central assumptions about the structure of West Germanic. 410 0$aLinguistik aktuell ;$vBd. 89. 606 $aGrammar, Comparative and general$xCoordinate constructions 606 $aGrammar, Comparative and general$xEllipsis 606 $aParallelism (Linguistics) 606 $aAsymmetry (Linguistics) 615 0$aGrammar, Comparative and general$xCoordinate constructions. 615 0$aGrammar, Comparative and general$xEllipsis. 615 0$aParallelism (Linguistics) 615 0$aAsymmetry (Linguistics) 676 $a415 700 $aVelde$b John R. te$01671332 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a9910828407803321 996 $aDeriving coordinate symmetries$94033834 997 $aUNINA