Universal 20 and Intralinguistic Variation

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Universal 20 and Intralinguistic Variation

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Title: Universal 20 and Intralinguistic Variation

1
Universal 20 and Intra-linguistic Variation

Niina Zhang
National Chung Cheng University
2007 International Conference on Linguistics in
Korea
Seoul, Jan. 19-20, 2007

2
1. Introduction

Greenbergs (1963 87) Universal 20
In a nominal containing the three types of
elements
Demonstratives, Numerals, Adjectives,
If any or all of them precedes the N,
they are always found in the order in (1a)
If they follow the N,
the order is either the same, as in (1b),
or its exact opposite, as in (1c).
(1)
a. Dem Num Adj N
b. N Dem Num Adj
c. N Adj Num Dem

3
(2)
4
Three Aspects of Universal 20

(4)
Every element of the set Adj, Num, Dem can
occur either to the left or right of N
If any two elements of the set occur on the same
side of N, they should be ordered according to
the closeness relation to N illustrated in (2).
c. N may undergo a leftward movement, but not
rightward movement.

5
The Issue

How are the constraints flexibilities of
Universal 20 exhibited in one language?

6
Word orders of sign languages are flexible.
In verbal domains nominal domains

Bouchard (1997) and Bouchard Dubisson (1995)
sign languages do not have any hierarchical
structure.

The empirical issue of this talk
the word order of nominal domains of TSL.

vs.
Neidle et al. (2000 60-61)
7

Lai (2005) presents a comprehensive description
of the possible and impossible nominal-internal
word orders of TSL, i.e., the orders of
demonstratives, adjectives, numerals, and head
nouns.
--------------------------------------------------
---------------------------------------
The data in Lai (2005) are all from a corpus
established in the project A Study of Taiwan
Sign Language Phonology, Morphology, Syntax and
Digital Graphic Dictionary (NSC
90-2411-H-194-025 (I), NSC 91-2411-H-194-030
(II), NSC 92-2411-H-194-007 (III), and NSC
93-2411-H-194-001 (IV)), headed by James H-Y Tai,
and sponsored by Taiwan National Science Council
(Aug. 2001-July 2005).

But it remains a puzzle why certain orders are
possible and others are not.
The goal of this talk is to show that TSL
exhibits Universal 20.
This fact indicates that like any oral language,
sign languages have hierarchical structures.

9
How is a hierarchical structure linearized?

If elements that are organized hierarchically can
be linearized symmetrically, linear order is not
part of syntax.
If the hierarchical structure correlates with any
linear order, linear order is part of syntax.

Since Reinhart (1979), it has been considered
that while a hierarchy is crucial to Narrow
Syntax, linear ordering in language is not.
In this consideration, linear ordering
sequentializes what is primarily only ordered
hierarchically.
(Marantz 1984 7-8, Abels Neeleman 2006)
Linear ordering might be a PF phenomenon forced
by the requirements of the articulators, or
parsing.
(see Chomsky 1995, 2005 5, 2006 7)

However, works represented by
Kayne (1994, 2004),
Cinque (2005)
argue for the narrow syntax status of linear
ordering.

Lillo-Martin (2001 304)
future researchers may ask whether SLs may
offer any new insights into the recent idea that
while hierarchical structure is part of Narrow
Syntax, ordering is not.
SLs Sign Languages

13
Flexibility Rigidity

Left and Right Positions
Hierarchical Structures

I will account for the rigidity in the TSL
nominal-internal word orders in terms of purely
syntactic hierarchy,
and
the flexibility there in terms of the freedom
of constituent ordering.

15
If hierarchy rather than word order is part of
narrow syntax, (3) can be true in some
language.(3)

a. Every element of the set Adj, Num, Dem can
occur either to the left or right of N

If any two elements of the set occur on the same
side of N, they should be ordered according
to
the closeness relation to N.

16
2. Identifying possible orders of nominals in TSL

This section demonstrates the flexibility in TSL.
This is the first aspect of Universal 20.

17
2.1 Two layers

(4) ?
N
? A, Num, Dem

(5) a. CUTE CAT IXpro1s LIKE. A N
(Lai 2005 15)
b. CAT CUTE IXpro1s LIKE. N A
Both I like cute cats.
(6) a. IXdet AIRPLANE REACH AMERICA. (Lai
2005 67) Det N
b. AIRPLANE IXdet REACH
AMERICA. N Dem Both This plane is flying
to America.

19
(7) a. TEACHER TABLE THREE BOOK PUT. (La
i 2005 44) Num N b. TEACHER TABLE BOOK THREE P
UT. N Num Both The teacher put thre
e books on the table.
20
The two possible orders in other SLsASL

Neidle et al. (2000 103) and Sandler
Lillo-Martin (2006 308, 341) mention both A N
and N A orders in ASL.
However, MacLaughlin (1997) claims that left APs
and right APs are hierarchically different (see
Sandler Lillo-Martins 2006 341 for a review).

21
The two possible orders in other SLsHKSL

Tang and Sze (2000) mention that both Num N and N
Num orders are found in HKSL.

22
The two possible orders in other SLsASL

Bahan, Kegel, MacLaughin, Neidle (1995),
Neidle et al. (2000 89),
Sandler Lillo-Martin (2006 339)
They all claim that post-N determiner-like
elements are not determiners in ASL.

23
2.2 Three layers

(9) ?
?
N
? A, Num
? Num, Dem

4 possible orders if ? A and ? Num (Lai
200573)
(10) a. IXpro3s FIVE CUTE CATS HAVE. Num
A N
She has five cute cats.
b. IXpro3s TELL-ME HAVE ONE MAN GOOD
INTRODUCE TO-ME. Num N A
She said shed like to introduce a
good guy to me.
c. IXpro3s RAISE CUTE CATS FIVE.
A N Num
She raises five cute cats.
d. IXpro3s HIGH-HEELS BLACK TWO HAVE.
N A Num
I have two pairs of black high
heels.

4 possible orders if ? A and ? Dem (Lai 2005
81)
(12)
a. IXdet CUTE CAT IXpro1s BELONG-TO.
Det A N
b. IXdet CAT CUTE IXpro1s BELONG-TO. Det
N A
c. CUTE CAT IXdet IXpro1s BELONG-TO. A
N Dem
All That cute cat belongs to me.
d. CAT CUTE IXdet BELONG-TO. N A
Dem
That cute cat belongs to me. (Hsin-Hsien Lee,
p.c.)

4 possible orders if ? Num and ? Dem (Lai
2005 84)
(13)
a. IXdet FOUR CAR IXpro1s FRIEND
BELONG-TO. Det Num N
b. IXdet CAR FOUR IXpro1s FRIEND
BELONG-TO. Det N Num
c. FOUR CAR IXdet IXpro1s FRIEND BELONG-TO.
Num N Dem
d. CAR FOUR IXdet IXpro1s FRIEND BELONG-TO.
N Num Dem
All Those four cars belong to my friend.

27
2.3 Four layers

(14) Dem
Num
A

N
28

Mathematically, four elements in a shell
structure allow 8 orders (23).
However, since Dem cannot occur at the right
edge, we have found only four orders (23/222).
At this moment, I cant account for this
constraint.
Note that the constraint is found in ASL on all
nominals (see slide 22).

29
(15) a. IXdet FIVE NAUGHTY BOY IXpro1s BELONG-TO
STUDENT. Det Num A N b. IXdet NAUGHTY BOY
FIVE IXpro1s BELONG-TO STUDENT.
Det A N Num c. IXdet FIVE BOY NAUGHTY IXpr
o1s BELONG-TO STUDENT. Det Num N A d. IXd
et BOY NAUGHTY FIVE IXpro1s BELONG-TO STUDENT.
Det N A Num All These five naughty boy
s are my students. (Lai 200586)
30
2.4 Section conclusion

All possible orders stated in Universal 20 are
attested in TSL.
The first aspect of Universal 20
Every element of the set Adj, Num, Dem can
occur either to the left or right of N
The significance of this conclusion will be
discussed in section 5.

31
3. Accounting for the impossible orders by the
hierarchical structures

This section demonstrates the second aspect of
Universal 20 in TSL
If any two elements of the set A, Num, Dem
occur on the same side of N, they should be
ordered according to the closeness relation to N.

32
(2)
33
3.1 Three Element Nominals

(9) ?
?
N
? A, Num
? Num, Dem

34
The order of ??N is not allowed

If we consider the N-final orders

(17) ??N a. A Num N b. A
Dem N
c. Num Dem N
(16) ??N a. Num A N (10a) b. Dem
A N (12a)
c. Dem Num N (13a)
35
3.2 Four Element Nominals

(14) Dem
Num
A

N
We have seen four possible orders in (15), as
predicted by (14).
36

Mathematically, if four elements do not have a
shell structure, they should have 24 orders
(4x3x2x1).
However, according to Lai (2005), the orders in
(15) are the only possible orders for four
element nominals.
Orders like the following are not acceptable

(18) a. Det A Num N
b. Det N Num A
c. A Dem Num N
d. A Num Dem N
e. N Num A Dem
f. N Dem A Num
g. N A Dem Num
In all of these unacceptable orders, the
hierarchy requirement is violated.

38
3.3 Section conclusion

If the order of nominal-internal elements in TSL
is absolutely free, the restrictions are
unexpected.
The second aspect of Universal 20 is attested in
TSL
If any two elements of the set A, Num, Dem
occur on the same side of N, they should be
ordered according to the closeness relation to N

39
4. Accounting for other possible orders by
N-Raising

All N-initial orders are fine for three element
nominals.
This is the third aspect of Universal 20.

N may undergo a leftward movement, but not
rightward movement.
40
Both N?? and N?? are possible

N??
a. N Num A
b. N Dem A
c. N Num Dem

N??
a. N A Num (10d)
N A Dem (12d)
c. N Num Dem (13d)

(20)
IXpro1s CAT FIVE FAT. N Num A
I have five fat cats. (Hsin-Hsien Lee p.c.)
b. IXpro3s ASK TEACHER QUESTION SOME DIFFICULT.
N Quan A
He asked the teacher some difficult
questions.
(Lai 200575 (24e))
c. CAT IXdet CUTE IXpro1s BELONG-TO. N
Dem A
That cute cat belongs to me. (Lai 2005 80
(34c))
d. CAR IXdet FOUR IXpro1s FRIEND BELONG-TO.
N Dem Num
Those four cars belong to my friend. (Lai
2005 84 (37e),(38b))

42
N-Raising in the Left-Merger Constructions

(21) N ? ?
? A, Num ? Num, Dem

43
Rightward N-Raising is impossible

(21) ? ? N
X
? A, Num ? Num, Dem
See the restrictions in 3.1.

44
5. Discussion

Universal 20 and hierarchical structures of sign
languages
Representing the flexibility of Universal 20
Intra-linguistic variation

45
5.1 Universal 20 and hierarchical structures of
sign languages

TSL strictly follows the restrictions expressed
by Universal 20.
The restrictions are formalized in Cinque (2005)
and Abels Neeleman (2006).
Bouchard Doubissons (1995) theory that sign
languages do not have any hierarchical structure
cannot be maintained.

46
5.2 Representing the flexibility of Universal 20

We have seen that TSL also exhibits the word
order flexibility expressed by Universal 20
Every element of the set Adj, Num, Dem can
occur either to the left or right of N.
This flexibility can be achieved by either of the
freedom of merger directions (allowing
right-merger), or movement.

47
Deriving the order of Dem N Adj Num (15d)
48

One way to reduce descriptive complexity of the
derivations of nominal internal orders is to
assume that the elements can be merged at either
right or left positions.
This freedom suggests that syntax does not
dictate the linear order of constituents.
Actually, right remerger of wh-elements in ASL
has been argued for in Neidle (2002), where
SpecCP is claimed to be projected rightward in
the language.
The assumed freedom in merger direction in all
levels of a nominal have the following two
significances ?

49
A. Merger direction is not configuration-specific

We have seen that Dem, Num, and Adj all can occur
either to the left or right of N.
Takano (2003 524)
adjuncts vs. non-adjuncts
?
subject to antisymmetry and thus
their positions are fixed to the relevant
selecting element (left specifiers and right
complements).
Since it is generally recognized that Dem and Num
are not adjuncts whereas Adjectives are, the free
order of both types is not compatible with
Takanos claim.

50
B. Merger direction is not category-specific

Based on a study of word order of clauses in ASL,
Romano (1991)
lexical categories head-initial
functional categories head-final
Since the scope of our study includes both
lexical and functional cats, our conclusion of
the TSL nominals is not compatible with Romanos
claim on ASL clauses.
Syntactic variation is not restricted to
functional items (contra Chomsky 1995, Kayne
2005).

51
5.3 Intra-linguistic variation
for all nominal-internal categories
in the same language
Both head-initial and head-final orders

The co-existence of two settings of a parameter
has been found in other cases.

52
Case A Null argument licensing

agreement discourse reference
Romance lgs -
East Asian lgs -
English - -
Parameter setting
However,
Warlpiri (Legate 2003) (either)
ASL (either)
(see Sandler Lillo-Martin 2006 16)

53
Case B Moved WH-phrases and WH-in-situ

In languages like English, wh-movement is
obligatory.
In Chinese, wh phrases remain in situ.
Parameter setting
ASL has moved WH-phrases as well as WH-in-situ
(Lillo-Martin 1990, Sandler Lillo-Martin 2006
16, ch. 23)

54
Case C Two Types of Noun Incorporation

In compounding NI, the valence of the clause is
decreased
In classifying NI, the valence of the clause is
not decreased
Many languages with NI consistently use only one
type Parameter setting
However, some languages have both types (Hopkins
1988, Mithun 1984).

As stated by Sandler Lillo-Martin 200616),
An explanation for this tendency to have it
both ways is still to be determined.

56
Kayne (2005 3)

The parametric variation that occurs within
languages is of exactly the same sort as the
parametric variation that occurs across
languages.
The elements subject to it are the same in both
kinds of cases, and the features/properties in
question are, too.

57
Parameters or Feature Values?

The intra-linguistic variation studied here
casts doubts on the assumption that languages
themselves are the immediate locus of parametric
variation (see also Newmeyer 2004, Kayne 2005
1).
What the parameter approach tries to explain can
be simply covered by values of features.
Different values of any feature can be attested
either cross-linguistically or intra-linguisticall
y.

58
6. Summary

I have shown that both the flexibility and the
restrictions generalized in Greenbergs (1963
87) Universal 20 are basically attested in Taiwan
Sign Language.
Theoretically, this study concludes that like
oral languages, sign languages have hierarchical
structures.
Moreover, if elements that are organized
hierarchically can be linearized symmetrically,
to reduce descriptive complexity, Kayne-Cinques
correlation between syntactic hierarchical
structures and linear ordering might need
reconsideration.
Furthermore, the intra-linguistic variation of
the universal calls for reconsideration of our
current theory of parameter setting.

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