The Effect of Leaf Number-altered Mutants inArabidopsis thaliana

The effects of temperature and root-lesion nematodes [Pratylenchus penetrans (Cobb)] on the growth of newly germinated `Bartlett' pear seedlings (Pyrus communis L.) were examined. At five temperatures from 10 to 30C, P. penetrans (five per gram of soil) did not purple the leaves. After 8 weeks, leaf number, trunk height, and top and root weights were reduced only at 25C. The number of P. penetrans in the roots were greatest at 15 and 20C. At 20C, P. penetrans (16 per gram of soil) caused the leaves of seedlings to turn purple, and, by 6 weeks after treatment, the nematodes had reduced leaf production, trunk elongation, and top and root growth.

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Cyclamen Leaf Unfolding Rate in Response to Temperature

HortScience ◽

10.21273/hortsci.33.3.447d ◽

1998 ◽

Vol 33 (3) ◽

pp. 447d-447

Author(s):

Meriam Karlsson ◽

Jeffrey Werner

Keyword(s):

Day Length ◽

Leaf Number ◽

Cyclamen Persicum ◽

Flower Buds ◽

Flower Bud ◽

Leaf Unfolding ◽

Significant Difference ◽

Number Of Leaves ◽

Growth Chambers ◽

Response To Temperature

Nine-week-old plants of Cyclamen persicum `Miracle Salmon' were transplanted into 10-cm pots and placed in growth chambers at 8, 12, 16, 20, or 24 °C. The irradiance was 10 mol/day per m2 during a 16-h day length. After 8 weeks, the temperature was changed to 16 °C for all plants. Expanded leaves (1 cm or larger) were counted at weekly intervals for each plant. The rate of leaf unfolding increased with temperature to 20 °C. The fastest rate at 20 °C was 0.34 ± 0.05 leaf/day. Flower buds were visible 55 ± 7 days from start of temperature treatments (118 days from seeding) for the plants grown at 12, 16, or 20 °C. Flower buds appeared 60 ± 6.9 days from initiation of treatments for plants grown at 24 °C and 93 ± 8.9 days for cyclamens grown at 8 °C. Although there was no significant difference in rate of flower bud appearance for cyclamens grown at 12, 16, or 20 °C, the number of leaves, flowers, and flower buds varied significantly among all temperature treatments. Leaf number at flowering increased from 38 ± 4.7 for plants at 12 °C to 77 ± 8.3 at 24 °C. Flowers and flower buds increased from 18 ± 2.9 to 52 ± 11.0 as temperature increased from 12 to 24 °C. Plants grown at 8 °C had on average 6 ± 2 visible flower buds, but no open flowers at termination of the study (128 days from start of treatments).

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Non-destructive measurement of leaf area and leaf number of hydroponic pak-choy plants (Brassica rapa)

IOP Conference Series Earth and Environmental Science ◽

10.1088/1755-1315/644/1/012004 ◽

2021 ◽

Vol 644 (1) ◽

pp. 012004

Author(s):

I S Nasution ◽

P Satriyo ◽

Ichwana ◽

S Yolanda ◽

A Alma

Keyword(s):

Leaf Area ◽

Brassica Rapa ◽

Leaf Number ◽

Destructive Measurement ◽

Non Destructive

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Impacts of increasing fine fuel loads on acorn germination and early growth of oak seedlings

Fire Ecology ◽

10.1186/s42408-020-00088-8 ◽

2021 ◽

Vol 17 (1) ◽

Author(s):

Rachel E. Nation ◽

Heather D. Alexander ◽

Geoff Denny ◽

Jennifer K. McDaniel ◽

Alison K. Paulson

Keyword(s):

Prescribed Fire ◽

Germination Rate ◽

Growth Patterns ◽

Leaf Number ◽

Fuel Load ◽

Quercus Alba ◽

White Oak ◽

Fuel Treatment ◽

Basal Diameter ◽

Fuel Loads

Abstract Background Prescribed fire is increasingly used to restore and maintain upland oak (Quercus L. spp.) ecosystems in the central and eastern US. However, little is known about how prescribed fire affects recently fallen acorns under different fine fuel loads, which can vary with stand composition and basal area, burn season, and fire frequency. We conducted plot-level (1 m2) burns in an upland oak stand in northern Mississippi, USA, during December 2018, using single (i.e., ambient), double, and triple fine fuel loads, representative of those in nearby unburned and recently fire-treated, closed-canopy stands. Pre burn, we placed 30 acorns each of white oak (Quercus alba L.) and Shumard oak (Quercus shumardii Buckley) ~1 cm below the litter surface in five plots of each fuel treatment. Immediately post burn, we planted unburned and burned acorns in a greenhouse. After ~50% of each species’ unburned acorns germinated, we measured percent germination and height, basal diameter, and leaf number of germinating seedlings weekly for 11 weeks. Then, we harvested seedlings to determine above- and belowground biomass. Results The single fuel treatment reduced acorn germination rates of both species to ~40% compared to ~88% in unburned acorns. When burned in double and triple fuel loads, acorns of both species had a <5% germination rate. There was no difference in basal diameter, leaf number, or biomass of seedlings from burned versus unburned acorns for either species. However, seedlings originating from burned acorns of both species were ~11% shorter than those from unburned acorns. Thus, both species responded similarly to fuel load treatments. Conclusions Acorns of both species exhibited greater survival with lower fine fuel loads, and consequently lower percent fuel consumption. Acorns germinating post fire generally produced seedlings with growth patterns similar to seedlings originating from unburned acorns. These findings indicate that regular, repeated prescribed fires or canopy reductions that limit fine fuel accumulation and create heterogeneous fuel beds are likely to increase acorn germination rates relative to unburned sites or those with recently introduced fire.

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The genetic architecture of leaf number and its genetic relationship to flowering time in maize

New Phytologist ◽

10.1111/nph.13765 ◽

2015 ◽

Vol 210 (1) ◽

pp. 256-268 ◽

Cited By ~ 29

Author(s):

Dan Li ◽

Xufeng Wang ◽

Xiangbo Zhang ◽

Qiuyue Chen ◽

Guanghui Xu ◽

...

Keyword(s):

Flowering Time ◽

Genetic Relationship ◽

Genetic Architecture ◽

Leaf Number

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Estimation of Leaf Number and Leaf Biomass of Hazel Corylus Avellana by Two Methods

Oikos ◽

10.2307/3543419 ◽

1972 ◽

Vol 23 (2) ◽

pp. 281 ◽

Cited By ~ 2

Author(s):

B. Axelsson ◽

D. Gärdefors ◽

H. Hytteborn ◽

U. Lohm ◽

T. Persson ◽

...

Keyword(s):

Corylus Avellana ◽

Leaf Number ◽

Leaf Biomass

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The Effect of Pruning and Several Kinds of Growing Media Fertigation Hydroponic Systems Against Protection and Production of Melons (Cucumis Melo L.)

Nabatia ◽

10.21070/nabatia.v4i2.578 ◽

2016 ◽

Vol 4 (2) ◽

pp. 57-63

Author(s):

M Abror ◽

M Koko Ardiansyah

Keyword(s):

Plant Height ◽

Cucumis Melo ◽

Fruit Weight ◽

Growth And Yield ◽

Leaf Number ◽

Growing Media ◽

Hydroponic System ◽

Wide Range ◽

Number Of Leaves ◽

Cucumis Melo L

This study aims to determine the effect of trimming with a wide variety of growing media hydroponic system fertigation on growth and yield of melon. Research will be conducted in the green house (House of plastic) UMSIDA Agriculture Faculty, Campus 2, Gelam, Candi, Sidoarjo, research time between the months of March to June 2016 using analysis of variance and continued test HSD 5%. The variables measured were plant height, leaf number, level of sweetness of fruit, fruit weight, high-fruit, thickness of the flesh of the fruit, conclusion from this research is going on the effect of trimming and a wide variety of growing media hydroponic system fertigation in treatment PM5 (trimming down, kokopit). There was also a real influence on the treatment PM6 (without pruning, kokopit) .In observation of plant height, leaf number, fruit weight, and high fruit. And also happens to influence a wide range of growing media on growth and yield of melon on hydroponics fertigation system, the PM6 treatment (without pruning, kokopit) had the highest rates in the observation of plant height, weight of the fruit, and the number of leaves.

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Reducing Substrate Moisture Content during Greenhouse Production of Poinsettia Improves Postproduction Quality and Economic Value

HortScience ◽

10.21273/hortsci13484-18 ◽

2018 ◽

Vol 53 (11) ◽

pp. 1618-1628

Author(s):

Yanjun Guo ◽

Terri Starman ◽

Charles Hall

Keyword(s):

Moisture Content ◽

Economic Value ◽

Growth Index ◽

Dry Weight ◽

Leaf Number ◽

Stem Length ◽

Total Production ◽

Greenhouse Production ◽

Ethylene Concentration ◽

Substrate Moisture

The objective was to determine the effect of substrate moisture content (SMC) during poinsettia (Euphorbia pulcherrima) greenhouse production on plant quality, postproduction longevity, and economic value. Two experiments were conducted, one in 2016 with ‘Freedom Red’ and the other in 2017 with ‘Christmas Eve Red’. Treatments included two SMC levels (20% or 40%) applied in four timing of application combinations. Total production (TP) time was 14 (2016) or 12 (2017) weeks in which vegetative production (VP) occurred from week 33 (2016) or 35 (2017) to week 39 and reproductive production (RP) continued from week 40 to 47. The four timing of application treatments were 40/40 = TP at 40% SMC; 20/40 = VP at 20% + RP at 40%; 40/20 = VP at 40% + RP at 20%; 20/20 = TP at 20% SMC. After simulated shipping in the dark, plants were evaluated in a simulated retail environment with two packaging treatments: no sleeve covering or plastic perforated plant sleeves covering container and plant. At the end of greenhouse production, plants grown in 20% SMC during RP (20/20 and 40/20) had shorter bract internode length, stem length, and smaller growth index (GI), decreased shoot and root dry weight (DW), and bract and leaf surface area compared with those in 40% SMC during RP (40/40 and 20/40). Photosynthetic rate was higher when plants were watered at 40% SMC regardless of production stage compared with those in 20% SMC. Leaf thickness, petiole thickness, total bract and leaf number were unaffected by SMC treatments. Plants in 20% SMC during RP (20/20 or 40/20) had earlier bract coloring despite days to anthesis being the same for all SMC treatments. Compared with 40/40, 40/20, and 20/20 could save 44.2% or 43.6%, respectively, irrigation and fertilizer usage, and 39.1% and 47.8%, respectively, labor time. During postharvest, ethylene concentration was unaffected by packaging method. Sleeved plants, regardless of SMC treatment, received lower light intensity in the middle of the plant canopy, causing plants to have lower total leaf number due to abscission and SPAD reading at the end of postproduction. The 40/40 treatment abscised more bracts during five weeks (in 2016) of postproduction and with no sleeve had higher number of bracts with bract edge burn (BEB). In summary, reducing SMC to 20% during TP or RP reduced water usage during production and produced more compact plants with increased postproduction quality.

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RESPON PERTUMBUHAN TANAMAN SELADA (Lactuca Sativa L) TERHADAP VOLUME AIR DAN KONSENTRASI LARUTAN NUTRISI GOOD-PLANT SECARA HIDROPONIK

Jurnal Agroristek ◽

10.47647/jar.v2i2.182 ◽

2019 ◽

Vol 2 (2) ◽

pp. 43-51

Author(s):

Nuryulsen Safridar, Sri Handayani

Keyword(s):

Plant Height ◽

Lactuca Sativa ◽

Leaf Age ◽

Treatment Plant ◽

Leaf Length ◽

Plant Nutrients ◽

Leaf Number ◽

Water Volume ◽

Nutrient Concentrations ◽

Lactuca Sativa L

This study aims to determine the volume of water and the concentration of the nutrient solution and the right good plant to plant growth of lettuce (lactuca sativa L). This research has been carried out in the garden experiment Jabal Ghafur Faculty of Agriculture, University of Sigli. Runs from February to April 2017. This study used a raft floating hydroponics system. Research using completely randomized design (CRD) factorial pattern that is factor of the volume of water and nutrient concentration factor of good-plant. Treatment of the water volume (V) consists of three levels ie (V1) 4 liters of water, (V2) 8 liters of water and (V3) 12 liters of water. Good treatment-plant nutrient concentrations (N) consists of three levels ie (N1) 600 ppm (N2) of 800 ppm and (N3) 1000 ppm, with three replications so overall deplore 27 experimental unit. The volume of water very significant effect on plant height and leaf length aged 10, 20 and 30 days after planting, leaf number aged 20 and 30 days after planting, heavy wet stover age 30 HST, significantly affect the amount of leaf age 10 HST. Good-plant nutrients very significant effect on plant height ages of 20 and 30 days after planting, leaf number and length of leaf age 30 HST, significant effect on plant height HST age 10, age 20 HST leaf length, weight of wet age 30 HST stover. Keywords: lettuce, hydroponics, water volume and concentration of good-plant nutrients

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