Invasive grass affects seed viability of native perennial shrubs in arid woodlands

2019 ◽  
Vol 21 (5) ◽  
pp. 1763-1774 ◽  
Author(s):  
Kaisha M. Edwards ◽  
Christine Schlesinger ◽  
Mark K. J. Ooi ◽  
Kris French ◽  
Ben Gooden
Keyword(s):  
Seed Viability ◽  
Invasive Grass ◽  
Perennial Shrubs

Fire as a Tool for Controlling Tamarix spp. Seedlings

2012 ◽  
Vol 5 (2) ◽  
pp. 139-147 ◽  
Author(s):  
Michelle K. Ohrtman ◽  
Sharon A. Clay ◽  
David E. Clay ◽  
Alexander J Smart
Keyword(s):  
Water Loss ◽  
Seedling Survival ◽  
Seed Viability ◽  
Moisture Loss ◽  
Grass Species ◽  
Saturated Soils ◽  
Invasive Grass ◽  
Dry Soil ◽  
Tamarix Spp ◽  
Water Saturated

AbstractFire is often used in northern grasslands to control invasive grass species but has unknown effects on Tamarix spp., more recent invaders. Temperature (using an oven as a fire surrogate) and duration combinations that would be most lethal to Tamarix seeds and seedlings were determined. Tamarix seeds were sown in soil-lined dishes, water added to saturation, and seedlings grown for 1 to 5 d. Seeds were also placed in water-saturated or dry soil just before temperature exposure (79 to 204 C [175 to 400 F]) by duration (1 to 5 min) treatments. After treatment, soil water loss was measured by weight difference, and surviving seedlings were counted for 6 d. Tamarix seedling establishment and survival decreased with increasing temperature and duration. The 5-d-old seedlings were the most affected. No 5-d-old seedlings survived 1- and 2-min exposures to 204 C, whereas 1-d-old seedlings had greater than 25% survival. If soils were saturated, two to four times more seedlings established following seed exposure to 177 and 204 C. Longer durations at lower temperatures were required to reduce Tamarix survival. Increasing duration from 2 to 5 min at 121 C decreased 5-d-old seedling survival from more than 80% to less than 10% and eliminated those seedlings at 149 C. Five minutes at 149 C decreased dry-soil seed viability to about 15%, whereas germination on saturated soils remained high (∼75%). No seeds survived the exposure to 177 and 204 C. Soil moisture loss values associated with 90% mortality of 5- and 1-d-old seedlings were 1.7 and 2.2%, respectively. On saturated soils, 90% of seeds died with 2.5% water loss. Under suitable conditions, fire can decrease Tamarix seedling survival. Fire may be useful for controlling Tamarix seedlings in northern grasslands and should be considered for management of new invasions.

Seed Dormancy and Germination Mechanisms in Eremophila (Myoporaceae)

1994 ◽  
Vol 42 (6) ◽  
pp. 705 ◽  
Author(s):  
GS Richmond ◽  
EL Ghisalberti
Keyword(s):  
Seed Dormancy ◽  
Seed Viability ◽  
Water Soluble ◽  
Optimum Conditions ◽  
Germination Inhibitors ◽  
Physical Dormancy ◽  
Intense Precipitation ◽  
Fruit Wall ◽  
Perennial Shrubs ◽  
Seed Dormancy And Germination

Eremophila R.Br. (Myoporaceae) species are hardy perennial shrubs and trees which are endemic to Australia. They offer potential in revegetation and horticultural programmes and are currently propagated from cuttings, since they have proven difficult to grow from fruits. Fruits of E. maculata (Ker Gawl.) F.Muell. contain multiple seeds, and potential seed viability decreases from 58-74% over the first 3 years to 8% after 10 years. Up to 98% germination is obtained with seeds of E. maculata excised from the fruit, compared to 28% germination from the fruit. Since older fruits, which are characterised by a weathered fruit apex, allow a greater number of seedlings to emerge during optimum conditions, Eremophila germination appears to be controlled primarily by physical dormancy due to the woody endocarp which surrounds the seeds. Chemical dormancy also plays an important role in the establishment of Eremophila, and germination inhibitors have been found within the fruit wall of E. maculata and E. racemosa (Endl.) F.Muell. The inhibitors from E. maculata appear to be water-soluble aromatic glycosides. It is suggested that germination in the field is triggered by leaching of these compounds from the fruit during intense precipitation.

Methods for rapid determination of pecan (Carya illinoensis) seed viability

2017 ◽  
Vol 45 (2) ◽  
pp. 455-464
Author(s):  
T.T. Xue ◽  
J. Liu ◽  
Y.B. Shen ◽  
G.Q. Liu
Keyword(s):  
Rapid Determination ◽  
Seed Viability ◽  
Carya Illinoensis

Effect of Electromagnetic Radiation and Temperature on Wheat Seed Viability

2002 ◽  
Vol 57 (2-3) ◽  
pp. 7
Author(s):  
N. I. Grigor'eva ◽  
L. M. Chepel ◽  
S. P. Sirenko ◽  
T. M. Cheshko ◽  
V. I. Kiyko
Keyword(s):  
Electromagnetic Radiation ◽  
Seed Viability ◽  
Wheat Seed

scholarly journals Barley Seeds miRNome Stability during Long-Term Storage and Aging

2021 ◽  
Vol 22 (9) ◽  
pp. 4315
Author(s):  
Marta Puchta ◽  
Jolanta Groszyk ◽  
Magdalena Małecka ◽  
Marek D. Koter ◽  
Maciej Niedzielski ◽  
...  
Keyword(s):  
Seed Viability ◽  
Small Rna Sequencing ◽  
The Novel ◽  
Seed Aging ◽  
Long Term Storage ◽  
Novel Mirna ◽  
Complex Biological Process ◽  
Almost All ◽  
Term Storage

Seed aging is a complex biological process that has been attracting scientists’ attention for many years. High-throughput small RNA sequencing was applied to examine microRNAs contribution in barley seeds senescence. Unique samples of seeds that, despite having the same genetic makeup, differed in viability after over 45 years of storage in a dry state were investigated. In total, 61 known and 81 novel miRNA were identified in dry seeds. The highest level of expression was found in four conserved miRNA families, i.e., miR159, miR156, miR166, and miR168. However, the most astonishing result was the lack of significant differences in the level of almost all miRNAs in seed samples with significantly different viability. This result reveals that miRNAs in dry seeds are extremely stable. This is also the first identified RNA fraction that is not deteriorating along with the loss of seed viability. Moreover, the novel miRNA hvu-new41, with higher expression in seeds with the lowest viability as detected by RT-qPCR, has the potential to become an indicator of the decreasing viability of seeds during storage in a dry state.

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