ライフサイエンスコーパス: plant height

1 coupled meristem and inflorescence size from plant height.

2 ly associated with number of records, as was plant height.

3 ORICAULA of Antirrhinum, was associated with plant height.

4 ability to change hydraulic properties with plant height.

5 tative variation of maize flowering time and plant height.

6 ely, without delaying maturity or increasing plant height.

7 daptive syndrome including excessive ear and plant heights along with later flowering; this was reduc

8 Reduced plant height and culm robustness are quantitative charac

9 f dispersal structures, dispersal investment plant height and dispersal distance.

10 ay explain the positive relationship between plant height and dispersal distance.

11 ent-independent for grain yield, ear height, plant height and ear leaf area and largely environment d

12 ade avoidance responses, including increased plant height and enhanced apical dominance.

13 Reduced growth rate as measured by plant height and leaf number was consistent with the DHA

14 stem branching, rosette branching, and final plant height and observed several strong positive and ne

15 fzt plants have dramatically reduced plant height and shorter, narrower leaves with leaf pola

16 eight, suggesting close associations between plant height and spike-related traits.

17 e evaluated for their accuracy in estimating plant height and stem diameter.

18 dopsis thaliana included a reduction in both plant height and tracheary element length and an increas

19 an those of simple traits (anthesis date and plant height) and prediction accuracy under stress condi

20 orrelated significantly with lignin content, plant height, and dry matter yield, suggesting that meta

21 ress reduced shoot fresh weight, dry weight, plant height, and flag leaf length by 77%, 73%, 25%, and

22 In -mtlD plants, fresh weight, dry weight, plant height, and flag leaf length were reduced by 70%,

23 lant strategy variation (specific leaf area, plant height, and seed mass) in tree assemblages spannin

24 nd tenacity, rachis fragility, spike length, plant height, and spike emergence time.

25 ing photoperiod responses in flowering time, plant height, and total leaf number.

26 e it is a known regulator of flowering time, plant height, and trichome development.

27 With plant height as a covariate, vegetative biomass of ASP a

28 sistance in the phloem scales inversely with plant height because of a shift in sieve element structu

29 n the means for leaf number, flowering time, plant height, branching and growth rate; across-treatmen

30 GWAS maps several classical loci for plant height, candidate genes for inflorescence architec

31 ed genome-wide association studies (GWAS) on plant height components and inflorescence architecture.

32 gth OsbZIP48 in rice transgenics reduced the plant height considerably.

33 SoyNAM project and the following phenotypes: plant height, days to maturity, grain yield, and seed pr

34 many secondary inflorescence stems, reduced plant height, decreased stem diameter, and increased sec

35 Plant height, dispersal syndrome and dispersal investmen

36 d to Dw3 do not associate significantly with plant height due to allele sharing between Dw3 and dw3 i

37 onhyperploid plants by measuring leaf width, plant height, ear height, internode length, stalk circum

38 In field experiment, plant height, ear length, ear weight/plot, grain yield/p

39 Individually, alleles conferring taller plant height exhibited complete dominance over alleles c

40 al reconstruction; (2) Automatic Hedge-based Plant Height Extraction (Auto-PHe) based on dense stereo

41 e following: (1) User-interactive Individual Plant Height Extraction (UsIn-PHe) based on dense stereo

42 riod, five of the seven species decreased in plant height, four of these decreased in leaf size, and

43 MST) posits that the scaling exponents among plant height H, diameter D, and biomass M will covary ac

44 sults and those of previous studies indicate plant height is still the best proxy for estimating spec

45 Agriculturally advantageous reduction in plant height is usually achieved by blocking the action

46 es with dispersal structures on their seeds, plant height is very weakly related to dispersal investm

47 The size-dependent variations of plant height L and mass M with respect to basal stem dia

48 Leaf photosynthetic rate, transpiration, plant height, leaf area index (LAI), biomass, and yield

49 ion (PDO) in the year of collection affected plant height, leaf size, and flower number, and asked wh

50 diversification of three functional traits (plant height, leaf size, and seed size) were estimated f

51 unexpectedly wide range of traits including plant height, node number, leaf length, and flowering ti

52 The overall plant height of overexpression lines was reduced due to

53 ociated with two important agronomic traits, plant height (PH) and heading date (HD).

54 Days to anthesis, maturity, and plant height predictions had high heritability and gave

55 separate quantitative trait locus (QTL) for plant height (qHT7.1) was identified near the genomic re

56 of 100 years, there was a negative trend in plant height (r2= 0.4361, P < 0.001) for the intensely c

57 ); plant body length L (i.e., cell length or plant height) scales, on average, as the 1/4-power of M

58 ined plant biomass, species-specific traits (plant height, specific leaf area (SLA), root aerenchyma,

59 exhibited growth promotry effect in terms of plant height, stem diameter, root length, root number an

60 these SNPs closely localized to the SNPs for plant height, suggesting close associations between plan

61 al agronomically important traits, including plant height, transitions to flowering and axillary bran

62 trait loci was assessed through analysis of plant height variation.

63 V tended to be greater for whole-plant (e.g. plant height) vs. organ-level traits and for leaf chemic

64 an optimization of end wall resistance with plant height was discovered, but found to be independent

65 Variation in spike compactness and plant height were associated with the level of transgene

66 ions between Delta(13)C, flowering time, and plant height were not significant.

67 d Auto-PHe were accurate methods to estimate plant height, while Auto-PHe had the additional advantag

68 mapping, a genome-wide association study of plant height with a sorghum diversity panel pinpointed g