hi hey hello im gonna brain dump real quick abt the tampa independent world show because brain go brrrrrrr

n e ways one of my friends/teammates went to wgi regionals atlanta today bc shes there visiting for spring break right? and tampa independent world is performing there right? and so at the end of their show this guy (nicknamed aerial guy in my head) tosses the rifle like RIDICULOUSLY HIGH in the air it has to be a seven or eight (i cant count rotations and also the video she sent is too blurry) DOES AN AERIAL UNDERNEATH AND THEN CATCHES IT. AND THEN HE WALKS BACK TO THE TABLES SO NONCHALANTLY AND STANDS THERE WITH HIS HANDS ON THE RIFLE AND THE TIP TOUCHING THE GROUND IN A FINAL POSE LIKE “yeah i just did that” AND IM GOING FRICKIN INSANE OVER IT their show is so cool with the tables n i love their silks and everything

ok so i gotta preface this w/ i am autistic but like, only very minorly so i understand & can make "proper" facial expressions and whatever

But! Hey tumblr guardies i am In The Tags again. With a question!

. . .

Um so how do you like smile While Counting because i can't (yet) count in my head & our instructors are starting to get on us about not smiling T_T i'm trying my best to present up so i at least have that going for me, but every time my "performing now" face is literally like 😐 ...

I dont want to get yelled at for not doing it but i dont get how im supposed to without counting in my head (& then getting off beat because i tend to count fast) .........

guess who has a really long competition tomorrow :,)

for the cafe asks...vanilla chai?

vanilla chai— do you have any hobbies that your followers don’t know about? or any hobbies that you once had, but stopped doing?

All through high school, I was realllyy into guard. I was on my marching band's colorguard team, and I was on my area's winterguard competition team. If you don't know what winterguard is, it's the same flags you see spinning at high school football games, but a lot more dramatized. Instead of spinning to live band music, a winterguard show is created around a certain song. Winterguard involves a lot more dancing expertise, and generally also a higher level of technical skill than colorguard (excluding DCI). Additionally, winterguard teams can also use wooden rifles and sabres as additional weapons in their show. The technical difficulty can range from regional competitions all the way up to international teams. I'll link a show that I really enjoy, with the caveat that this is wayyy above any skill level I reached: WGI Pride of Cincinnati 2019.

Anyways if anyone else reading this knows winterguard, I'll say that I was on the rifle line 3 out of my 4 years, the shows I was in used the songs New World by Bjork, Dancing On My Own covered by Calum Scott, Anthropodie by Christopher Beck, and Vogue by Madonna <- last show was sadly cancelled cause of COVID which sucks cause it was gonna be our best yet for sure :(

°.✩┈┈┈┈∘*cafe asks*∘┈┈┈┈✩.°

2024 WGI Chicago Color Guard Regional

Day 3 and 4 of my 12-Day Magical Mystery Tour

Day 1 - Odessa rehearsal Day 2 - Snarky Puppy concert Day 3 - MAPS Finals + NJPW Capital Collision show in DC Day 4 - GMU rehearsal Day 5 - GMU rehearsal Day 6 - GMU rehearsal + Chantilly sendoff Day 7 - drive to Dayton Day 8 - WGI Prelims Day 9 - WGI Semis Day 10 - WGI Finals Day 11 - drive home from Dayton Day 12 - Odessa rehearsal

Didn’t update last night because I got to my hotel in Fairfax and collapsed on the bed and did a full system reboot last night. 

MAPS Finals was great. We had a great performance and got 1st place in Scholastic Regional. And won high score of the day. Pretty cool stuff. Very excited and happy for the kids that they did great and won. Wish more folks could have seen their show, but it’s not the end of the world. Cab Calloway also had a great show and got their highest placement of the season. I have high hopes for them in Dayton. 

So then I drove down to DC for a wrestling show, got there 15 minutes before bell time. Show wound up being really great. Some great wrestling matches, a really fun angle that they shot on the show, several in fact. And then a really great main event. I have a bad problem though that I get secondhand embarrassment really bad. So if someone shouts something random or awkward or says something random or awkward, it makes me uncomfortable. So of course the entire show is filled with assholes shouting random shit, trying to start random chants. It’s the worst. Made me almost leave the show during the main event. Just a complete lack of social awareness. Glad I didn’t cause there was a great title change. 

This morning I woke up and we had GMU rehearsal. Good day. Got a lot done and got a lot clean this morning. Had a productive block this afternoon continuing to clean and get good reps. And then this evening had a long but very productive music ensemble block with the battery, cleaning some stuff, working out front-to-back issues. Any big problems we had with timing, making them aware of tendencies and how to adjust. Made us a lot better and I think is a great foundation we’re pouring the rest of the week onto. 

I didn’t finish some of the work stuff I was working on last week. So today I took lunch and dinner break and hammered out some of it and got a lot done. Still gonna be burning the midnight oil tonight getting it done so that I can get it off tomorrow morning and it can get QA’d this week while I’m gone. And also so I have less to worry about when I get back, and also so I don’t have anything else to worry about while I’m in Ohio. 

Bayonne High School's cymbal line poses before their finals performance, starting off the day here at WGI's Eastern Power Regional in Tom's River, New Jersey

“Can you do couture?” “Yeah, I can.” 🖤 - @blessedsac PC: @joshclementsphotos - - - #wgimideast #cincinatti #regional #wgi #wgi2019 #sac2019 #blessedsac #winterguard #colorguard #performance #dance #photography #actionshot #fierce #me #art #LTC #aconversation https://www.instagram.com/p/BvhJWCGlL1R/?utm_source=ig_tumblr_share&igshid=h7mugjko5n76

4, 14, & 38!

수진언니이이이이이이이!!!! 요즘 잘 지냈어요? 저는 열심히 한국어 공부를 했어요 :)

4: best first date

i honestly don’t remember even though i haven’t been on many dates so i’ll just pick my favorite one. i think that would be when i went on a date to the movie theater but before going in we stopped by in dave&busters for a bit and played a game i could never beat alone, you need like 3 hands for it lmao, and we got 1000 tickets

14: greatest achievement

other than binge watching unus annus and somehow managing to watch nearly all of their 12 hour livestream on death day i don’t think i have a recent achievement. i guess i’d say going to texas to compete in a WGI power regional since performing under the WGI name has always been a dream of mine and it felt so surreal to have it come true.

38: am i happy?

at this very moment, yes i’d say i’m quite happy. will i be happy in 2 hours after my spring semester registration? i don’t know because there’s only 3 seats left in the korean literature class i want to take and i don’t have any more backup plans if i can’t get in :’))))))

send me a number from here

Lupine Publishers | Field Treatment Effects on Seed Germination and Early Growth Traits of Berseem Clover under Salinity Stress Conditions

Lupine Publishers | Agriculture Open Access Journal

Abstract

Developing seeds with a high level of tolerance against salinity and water shortage scan guarantee best seedling establishment in arid and semi-arid agricultural lands. This three-year field, laboratory and greenhouse study proposes the surfactant application to effectively prevent the detrimental impacts of severe environmental conditions on the development of parental plants. The germination rate of six parental seeds of berseem clovers (Trifolium alexandrinum L.) from I100 (100% irrigation water)/I100+s (irrigation water with surfactant, s), I75/I75+s and I50/I50+s treatments are studied under seven osmotic salinity potentials (0, -0.2, -0.4, -0.6, -0.8, -1, and -1.2MPa). Plants from seeds developed by surfactant in full and moderate limited irrigation (I100 and I75) show a favorable germination percentage when under saline stress treatments of -0.4 and -0.8MPa. The highest seedling lengths of 10.2 and 10.3cm were achieved for the seeds produced from I75 and I100+s treatments, respectively. Utilizing the surfactant across all field treatments had a positive effect on the weighted germination index compared to the counterpart treatment. In addition, Seedlings from seeds treated by surfactant in the germination tests have higher shoot/root ratios, which show the efficiency of surfactant application in promoting a better root and shoot development under saline/drought stresses.

Core ideas

a) Surfactant application enhanced parental seeds tolerance against salinity conditions.

b) Seeds developed by severely limited irrigation (I50) had a higher G% (75%).

c) Highest seedling lengths (10.2cm) obtained from plants treated by I75+ surfactant treatment.

d) Shoot/root ratio enhanced by surfactant application under salinity stress.

Abbrevations: G%: Germination Percentage; WGI: Weighted Germination Index; PPM: Mg per Liter; PPFD: Photosynthetic Photon Flux Density; BNS: Basal Nutrient Solution; AT Pase: Adenosinetri Phosphates; MGT: Mean Germination Time

Introduction

Seed performance refers to a capacity of seeds to germinate under various environmental conditions and relates to a critical period of a plant's life cycle which is eminently important in ecological and agronomic plant growth [1]. There is a general agreement that the performance and viability of seeds during their early stages of germination may be related to the conditions under which seeds are formed, developed, and matured [2]. As seed germination is the beginning of a plant's life cycle, proper seedling emergence is critically important for a decent establishment of plant population [3]. Many researchers have reported that adverse environmental conditions affect crop growth and productivity, postponing the seed germination and reducing the germination rate [4-7]. Plants experience a variety of abiotic stresses such as high/low temperatures, drought and salinity stress during their lifecycles which have a profound effect on their viability, growth, morphology, and reproduction [8]. In arid and semi-arid regions, seed germination and emergence are considered as critical stages for plant establishment and crop growth, which can elevate the crops' density and yields Shaygan 2017. In these regions, soil salinization is detrimental to plant growth and productivity [9,10].

Plants usually take up salt (Na+ and Cl- ions) from water which is detrimental to germination [11-13]. Plant growth in saline dry and semi-dry soils can be further damaged by water scarcity due to high osmotic pressure, which prevents adequate water uptake [14]. (Tables 1 & 2) present the summary of recent reports onthe adverse effects of salt/drought stress on seed germination and establishment [15-18]. For instance, the seed germination, emergence rate and growth of young seedlings of sugar beet (Beta vulgaris L.) [19,20], Phaseolus mungo [21] and Dianthus chinensis L. [22] decreased by NaCl treatments. Quantitatively, the salinity condition decreased the seed germination of nut (atropha curcas L.) by 50% [23], coriander (Coriandrum Sativum L.) by 65.67%, cultivar Kalmiand Pant Haritma by 55.56% [24], oat (Avena sativa L.) by 60.87% [25] etc. Berseem clover (Trifolium alexandrinum L.) is one of the best forage sources for feeding live stock and is considered as anon-bloating and high-quality forage [26].

Table 1:  Recent studies on the effects of salinity/drought stresseson qualitative and quantitative traits of plants.

G%= Germination percentage, GR=Germination Rate, SDW=Seedling Dry Weight,RDW=Root Dry Weight, SOD=Superoxide of dismutase, CAT=Chloramphenicol Acetyltransferase, APX=Ascorbate Peroxidase, PEG=Polyethylene Glycol

It is moderately tolerant to salinity compared to wheat and crops [28-30] (Tables 1 & 2). Thus, there is limited information strawberry clover [27]. Despite the advantages, studies on the on the effect of field treatments (seed production conditions) effects of salt stress have been mostly carried out on agricultural on subsequent salt stress tolerance at the germination stage and seedling establishment of legume forage crops such as berseem clover. Water shortage and saline soil are known as one of the main natural hazards especially in arid and semiarid regions which delay seed germination and seedling establishment [31]. The aims of this three-year study are to determine factors responsible for the failure of germination and early growth characteristics of berseem clover seeds under saline/osmotic conditions. (Tables 1 & 2) present the results of recent studies on the reduction effect of salinity and drought conditions on different plants traits (Tables 1 & 2). Compared to these results, the present study proposesane co-friendly surfactant solution to mix with irrigation water at a very low rate of 1mg per liter (1ppm) to substantially reduce the severe effects of salinity and drought stresses on seed germination and growth of berseem clover.

Table 2: Recent studies on the effects of salinity/drought stresses on qualitative and quantitative traits of plants.

G%=Germination percentage, GR=Germination Rate, MGT=Mean Germination Time, FEP=Final Emergence Percentage, SVI=Seed Vigor Index, SFW=Seedling Fresh Weight, SDW=Seedling Dry Weight, RWC=Relative Water Content, SG=Speed of Germination.

Materials and Methods

Seed materials

Berseem clover (Trifolium alexandrinum L.) seeds obtained from our field experiments during the 2013-2015 growing seasons at the Research Farm of the College of Agriculture, University of Tehran, Karaj, Iran (N 35°56', E 50°58’) [32] Daneshnia 2016. The climate at this site is considered as arid to semiarid with a longterm (50years) mean air temperature of 13.5°C, soil temperature of 14.5°C, and 262mm of mean annual rainfall. In the field experiments, three levels of irrigation were applied to the main plots, including normal irrigation I100 (replenishment of 100% of weekly evaporation and plant water requirement), moderate irrigation (I75) and limited irrigation (I50). Two types of water treatment, including tap water and water+surfactant (added at a rate of 1ppm), were applied to the subplots. The experiments were carried out in split-split plots based on a completely randomized block design with three replications. Likewise, the irrigation treatments (I100, I75, and I50) were scheduled based on the common practice of the area, once a week, when the plants reached the 4 to 6-leaf growth stage. The amount of required irrigation water was calculated using the following equation [26,32].

In = 0.623 x A x Kc x ET0 x IE-l (1)

Where In is the volume of irrigation water (gallons), 0.623 is a constant, A is the canopy area (sq.ft.), Kc is the crop coefficient, ET0 is the weekly potential evapo transpiration (inches), and IE is the irrigation efficiency.

Salt stress germination test

The effects of six parental treatments (three irrigation levels and two water treatments) under salinity conditions were systematically studied during the germination process. These experiments were performed at the Seed Research Laboratory of the College of Agriculture, University of Tehran. The salinity treatment was built with seven osmotic potentials of 0, -0.2, -0.4, -0.6, -0.8, -land -1.2 MPa by, respectively, using 0, 2.66, 5.3, 7.99, 10.65, 13.31 and 15.98 gr/kg NaCl in dematerialized water. 50 seeds from each parental treatment were placed in 9cm sterile Petri dishes which contained two what man No.1 filter papers, and then placed in seed germination at 20oC. 10ml solution from each test was poured onto the plate; the papers were altered once after every 2 days to prevent salt accumulation [33]. The 42 treatments (6 parental treatments and 7 salinity levels) were arranged on a factorial base with a completely randomized design and three replications. To maintain water and salt concentrations near the target levels, required dematerialized or saline water was added to the Petri dishes during the daily monitoring. The number of germinated seeds was recorded every 24 hours for two weeks. A seed was considered as germinated when an emerging radical was longer than 2mm. Then, the germination parameters, such as final germination percentage (G%) and weighted germination index (WGI) [34], were determined with higher weights assigned to the seeds that germinated early and less to those that germinated late. The final WGI values (after 14 days) were calculated using the method proposed by Bu [34]

WGI = {N x n1 + (N - l)x n2 +---+lx n14}/N x N' (1)

Here, n1, n2, ...., n10 is the number of seeds that germinated on the 1st, 2nd and subsequent days until the 10th day, respectively, N is the total days of germination process, and N' is the total number of seeds placed in incubation. In Eq.1, the final WGI value is the product of the experimental value of WGI and the percentage of a live seeds in each treatment.

Early growth characterization of berseem clover seedlings under saline condition

Following the salt stress germination test, a series of pot experiments were conducted to evaluate the interaction between field treatment, salinity, and surfactant in the early growth of berseem clover seedlings. These experiments were performed at the Research Greenhouse of the College of Agriculture, University of Tehran. The greenhouse temperature, humidity and photosynthetic photon flux density (PPFD) for day/night were 25/20°C, 65/60%, and 300-600 μmol m-2s-1, respectively. The salinity treatments comprised of either intact soil from the field (soil with an electrical conductivity (EC) of 0.075 MPa and a primary osmotic potential of (-0.083MPa) or saline soil with an osmotic potential of -0.4MPa. The osmotic potential of salinity stress (-0.4MPa) was chosen on the basis of the optimum results of osmotic potential treatments from saline stress in the germination tests. In the following, the salinity level of the pots was kept at -0.4MPa throughout the experimental period. After a few preliminary tests, the EC of soil was adjusted to -0.4MPa by adding a solution of 5.3g NaCl+100 ml distilled water to all the pots which contained the saline-treated soil. All the pots were filled with 2.43kg of air-dried soil collected from the field. The soil of the pots was sieved (with a mesh diameter of 1 cm) and loaded in plastic pots 15cm in diameter and 12cm in height.

The field soil texture was clay loam with the following physicochemical characteristics: pH=7.8, EC=2.31 dSm-1, total nitrogen (N)=0.09%, available phosphorus (P)=8.87 mgkg-1, and available potassium (K)=225mgkg-1. The soil in each pot was fertilized with 1 liter of basal nutrient solution (BNS) which mainly consisted of both ammoniums (NH4) and nitrate (NO3) as the source of nitrogen [35]. To study the effect of surfactant on seedling establishment of parental seeds in saline environments, the pots were sprinkled with different levels of fresh water with/without surfactant additive. The soil was watered once every three days to replenish 100% of the soil moisture to ensure the plants were under no drought stress. The seeds used in this experiment were the same as used in the germination test. The nonionic surfactant marketed with the name Golden Irrig. Aid was provided by Aquatrols Corporations, New Jersey, USA (10% Alkoxylatedpolyols, 7% Glucoethers, Inter ingredient 83% water). The surfactant was applied at a rate of 1mg per liter (1ppm) to the irrigation water for water treatment purposes [36,37].

Statistical Analysis

The ANOVA technique with three replications was applied to the randomized design using the Proc GLM procedure SAS [38]. Mean comparison was implemented using Duncan's test at the 95% level of probability.

Results

Salt stress germination test

The laboratory experimental results showed that the germination is completely suppressed by -1 and -1.2 MP a salinity stress in the presence of the highest concentrations of NaCl. As the salinity increases, the germination percentage followed a decreasing trend across all field treatments. However, berseem clover can tolerate NaCl up to -0.4 MPa saline stresses with a moderate decrease in its germination stage (Figure 1). As the salinity stress increased from -0.4 to-0.6MPa, G(%) diminished significantly in all seed sources; the least (8.3%) and highest (33.3%) reductions were observed in I (with and without surfactant) and full irrigation (I100) (with and without surfactant)treatments, respectively. It is not able that under a higher salinity stress (-0.8 MPa), germination percentage increased across all parental seeds compared with -0.6MP a salinity stress. Parental seeds, collected from limited irrigation treatments ( I75 and I50) under various water treatments (with/without surfactant application), were influenced by the salinity level (Figure 1). Results indicated that the seeds, developed under drought stress during grain filling, were more tolerant to osmotic stress especially when the surfactant was added to the system. Under high salinity stress (-0.6MPa), seeds developed by severely limited irrigation (I50) have more tolerance to the osmotic pressure.

Figure 1:   Parental effect (water stress along with surfactant application: I100/I100+s I75/I75+s, and I50/I50+s) on berseem clover seed germination under different saline conditions.

Figure 2:   Parental effect (water stress and surfactant application) on berseem clover seed germination undermoderate and severe saline stress (-0.4 and -0.8MPa). (a) I100/-0.4MPa saline stress, (b) I100+s/-0.4MPa saline stress, (c) I75/-O.8 MPa saline stress, (d) I75+s/-0.8 MPa saline stress.

Figure 3:   Parental effect (water stress along with surfactant application): I100/I100+s, I75/I75+s, and I50/I50+s) on berseem clover seed WGI under different saline conditions.

This showed a reasonable germination percentage (75%) when the utilized surfactant was added to the system. As the level of salinity stress increased, the application of surfactant led to a better performance in the preservation of the seeds germination under harsh conditions. As shown in Figure 2 (a-d), seeds developed with irrigation water plus surfactant in both full and moderately limited irrigation treatments (I100 and I75) have better germination rates, compared with their counterpart treatments with no added surfactant under saline stress (-0.4 and -0.8MPa). In all parental treatments, as salinity stress intensity increased from 0 to -1.2MPa, WGI followed a decreasing trend (Figure 3). The highest WGI (87) was gained from IWo+s under a moderate salinity stress (-0.4MPa). Under higher osmotic stresses, seeds produced by surfactant had a higher WGI across all parental treatments compared to their counter parts from non-surfactant treatments. This is the indication of an enhanced germination rate in parental seeds upon the application of surfactant in irrigation water. The WGI in moderate water potentials of -0.2 and -0.4 MPa, induced by NaCl, was higher compared to that under more stressed levels (Figure 3).

Parental effects on berseem clover seedling establishment and growth under saline condition

Table 3 indicates that the seeds produced under deficit irrigation regimes (75% and 50%) with surfactant application (parental treatments) have better tolerance to salinity stress. This is also seen in Figure 4 where seeds, collected from plants grown with the irrigation treatments of I75 and I50, have a better performance under salinity stress. The highest seedling height (10.2cm) is gained from I75+s where the pots are water reducing surfactant. Figure 5 presents the evidence where the application of surfactant significantly increased the berseem clover seedling height when subjected to saline stress treatments, compared to the control. Under saline conditions, surfactant application increased the seedling height by 43.7 and 31.5% in I100 and I75, respectively, compared to control. In fact, after the application of a surfactant, berseem clover height significantly increased across all treatments. Figure 6 shows that the seeds developed under moderate water stress had a better seedling growth and development with surfactant application ( I75+s), compared to the control.

Figure 4:   Parental effect (water stress along with water treatment: I100, I75, and I50 ) and surfactant application on berseem clover seedling height under the saline condition of -0.4MPa in comparison with the normal condition.

Figure 5: Parental effect (water stress along with water treatment: I100+s, I75+s, and I50+s) and surfactant application on berseem clover seedling height under the saline condition of - 0.4MPa in comparison to normal condition.

Table 3:

Mean comparison was implemented using Duncan ' test at the 95% level of probability. Different letter's at each column indicate significant difference at p≤0.05, 0.01. *, ** show the significance at p≤0.05, 0.01, respectively.

Figure 6:  Berseem clover (I75+s) seedling growth under the saline stress of -0.4MPa: (a) irrigation with asurfactant, (b) irrigation without surfactant.

Seedlings from seeds developed under limited irrigation treatments (I50 and I75), had lower shoot/root ratios compared to those developed in I100 treatment (Figure 7). This phenomenon verifies the higher vegetative growth potential of seeds developed under full irrigation treatment (I100) (Figure 8). It is assumed that when the soil water content is inadequate to facilitate nutrient uptake by roots, plants face difficulties in absorbing the nutrients necessary for their growth. The higher vegetative growth potential of seeds is confirmed in (Figure 8) where the developed seeds have a lower root weight under a full irrigation treatment (I100). As shown in Figure 8, when the pots were watered with a surfactant, the plants’ shoot/root ratio significantly reduced by the favorable effects of surfactant on increasing the root growth under different growing conditions. Figure 9 clearly shows that seeds, developed under deficit irrigations ( I75 and I50 with surfactant), produced plants with higher shoot/root ratios compared to fully irrigated seeds. Using surfactant during the grain filling in parental plants induced a higher shoot/root ratio in developed seedlings, compared to their counterpart treatments. Figures 7 & 9 give clear evidence for this phenomenon which can be explained by the promoting effects of surfactant on better root development in the experiments.

Figure 7: Parental effect (water stress along with water treatment: I100, I75 ,and I50) and surfactant application on berseem clover's shoot/root ratio under the saline condition of -0.4MPa in comparison to normal condition.

Figure 8: Parental effect (water stress along with water treatment: I100, I75, and I50) and surfactant application on berseem clover's seedling biomass (shoot and root) under saline condition of -0.4MPa) in comparison to normal condition.

Figure 9: Parental effect (water stress along with water treatment: I100+s, I75+s, and I50+s) on berseem clover's shoot/root ratio under the saline condition of -0.4MPa in comparison to normal condition.

Discussion

It was previously reported that the application of surfactant had a modifying effect against the adverse condition of severely limited irrigation (I50) compared to full irrigation (I100); this resulted in maintaining the forage quality and quantity [26,32]. In this study, we conducted systematic experiments to specify the response of parental seeds (from deficit irrigation field treatments) to salinity stress.

Increased Salinity Tolerance of Seeds Under Field Treatments

Drought and salinity create multifaceted stresses that cause a significant reduction in crops yield depending on the plant growth stage, stress duration and severity Muscolo 2014. Germination is the most critical and sensitive stage in the life cycles of plants [38,39]. Seeds, exposed to unfavorable environmental conditions such as salinity and drought, may exhibit a change in the subsequent seedling establishment processes [40,41]. Our results highlighted the effects of field treatments (drought stress and surfactant application) on increasing seed germination under salinity stress. This study demonstrated that the seeds, developed under drought stress during grain filling, are more tolerant to osmotic stress which agrees with the report from Maleki [42]. The inhibitory effect of NaCl is because of the osmotic stress imposed on the seed/plant during the early phases of germination. At the early stages of imbibitions, the seed respiration and metabolic processes are highly correlated with the water uptake [43]. A threshold level of hydration is required in the initial steps of germination and their subsequent radical elongation [44]. By ensuring turgor maintenance, 'osmotic adjustment' may reduce sensitivity to water stress or allow the plant growth to continue even at a slow rate under stress conditions [45].

Salinity can affect the germination of seeds by disruption to the structure of enzymes and other macromolecules, damaging the cell organelles and the plasma membrane, disrupting the respiration, photosynthesis, and protein synthesis [46-48]. In the salinity stress of -0.6 to -1.2 MPa, a sharp reduction of WGI was observed across all parental seed resources. These results corresponded with the findings of Cavallaroa [49], who asserted that, due to osmotic pressure, the seed imbibitions becomes slower; thus, seed metabolism activation is postponed, and germination is taken place with a delay [50]. The amount of WGI resulted from the osmotic pressure of -0.2 and -0.4MPa, induced by NaCl, is higher compared to that under more stress levels. This phenomenon can be the result of increases in the expression of aquaporin and Adenosinetri phosphates (ATPase), as well as a rise in protease and lipase activities [51,52].

Improved seedling growth under parental treatments

Plants grown in the field under I75+ surfactant application had the highest seedling height (10.2cm). As explained by Maleki Farahani 2010, seeds germinate faster under severe water stress and have a shorter mean germination time (MGT), compared with the seeds produced under full irrigation. Probably, the increased physiological activity, due to the greater absorption of moisture by the treated seeds, is responsible for the improvement of germination and seedling. These results support the idea that the surfactant application in irrigating water in dry regions with salinity problems can maintain agricultural sustainability. The surfactant has a constructive modifying effect on the adverse effects of salinity stress compared with control (Table 3). According to a report from Demie [53], the positive effects of surfactant on improving the water movement and storage in soil could explain the results of the present study in the field. As such, surfactants have the positive effect of increasing the uniformity of water content in soil under drought conditions [54].

Researchers have reported that in response to soil salinity, the seedling growth, leaf area, root and shoot biomass are all reduced [55]. However, in the present study, the irrigation with surfactant successfully maintained a higher resistance of the seeds to saline stress conditions throughout the course of their growth and development (Table 3). As presented in Figure 5, the application of surfactant increased the berseem clover seedling height significantly while subjected to saline stress treatments, compared to the control. When the soil wet ability is less than the water requirement of plants, the use of surfactant in combination with appropriate irrigation and soil cultivation practices improves the soil hydrological behavior; this also improves the irrigation efficiency and water conservation [56,57]. Reported that salinity reduced water potential in the leaves of clovers (Trifolium sp.); shortened the length and lowered the dry mass of the stem, and undesirably affected the length and conductivity of plant roots. However, in this study, when the pots were treated with a surfactant, the plants' shoot/root ratio significantly reduced under all growing conditions. This result can be explained by the favorable effects of surfactant on increasing the root growth in plants (Figure 8).

Poulter [58] stated that the surfactants decrease the surface tension of water and, in this way, the penetration of water into the soil profile becomes easier, thus, the wetting area of soil increases. With the addition of a surfactant, the plant roots can find water in a wider soil profile, which leads to a better vegetative and generative growth and a higher efficiency in water usage. Figures 7 & 9 are a witness for promoting effects of surfactant on better root development in this experiment [59]. These results clearly show the efficiency of surfactant in increasing both the aboveground and underground components of plants in semi-arid regions where water is limited [60-64]. Our data indicate that those plants irrigated by surfactant and produced from seeds developed with surfactant have a higher shoot/root ratio under saline stress condition. The authors are currently carrying out physiological studies to better understand the function of surfactants in plants and its role in seed germination by tracking the absorption of surfactant into plants and seeds (Figure 10). This investigation is necessary to determine the contribution of surfactants to the metabolism of plants and seeds and other internal changes which lead to a better performance under saline stress conditions [65-71].

Figure 10: Parental effect (water stress along with water treatment: I100+s, I75+s, and I50+s) on berseem clover's seedling biomass (shoot and root) under the saline condition of -0.4MPa in comparison to normal condition.

Conclusion

Improving the seed tolerance to saline soil or water shortage can enhance forage production and agricultural sustain ability in arid and semi-arid areas. In this study, the application of surfactant increased the tolerance of berseem clover seeds to salinity stress under full, I , medium, I , and severe, I , irrigation treatments. Parental seeds developed under the severely limited irrigation in the field had a higher germination percentage (75%) compared to normal and moderately irrigated seeds [72,73]. Enhanced WGI of seeds, produced by surfactant across all parental treatments, indicated the desired effect of surfactant application. Plants treated by surfactant in irrigation water had a higher shoot/root ratio under saline stress condition. The results clearly showed the enhancement effect of surfactant application on improving seed performance and plant components in semi-arid regions where limited irrigation water and salinity are the main issues [74-81]

https://lupinepublishers.com/agriculture-journal/pdf/CIACR.MS.ID.000127.pdf

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I’m generally ok with using all of the different regional terminology for color guard basics. But the term “pop toss” can mean SO MANY different tosses and none of them are agreed upon even regionally (I.e. the two neighboring schools can use it to say completely different things). With so many turning to video auditions, we are having an influx of questions about the audition requirements and this is the most common problem... nobody knows what anyone else means when they say “pop toss” today. So let’s retire this term and use more descriptive ones... or better yet INCLUDE A VIDEO! It’s 2020 and if you don’t have or can’t create a video just message me, we have HUNDREDS of them and I’ll be happy to send you links to either single videos or full playlists. We are also on Teacher Tube for those schools who have blocked YouTube. * * * * * #colorguard #winterguard #howtocolorguard #auditions #videoauditions #auditionhelp #spintronix #spintronixguard #thanksspintronix #colorguardflag #colorguardrifle #colorguardsabre #colorguardlife #colorguardlove #winterguardlife #winterguardlove #spinsubmissions #justcolorguardthings #spinoutreach #MCCGA #MCCGA2020 #WGI #WGI2020 #WinterGuardInternational #colorguardislife #marchingarts #marchingartsphotography #dance #performer #performingarts (at Spintronix Color Guard) https://www.instagram.com/p/B_kKsD7FG2p/?igshid=1txvl5m1vm0hm

(rb for larger sample size)

Montana’s “Glacier” National Park

Glacier National Park, located in North Western Montana, is one of the ‘must-see’ locations in the North American West. It encompasses over 16,000 square miles of beautiful valleys, mountains and lakes. Unfortunately, time is running out for the park’s most stunning and crucial wonders – the glaciers.

Over 100 years ago, Glacier National Park housed over 150 thick sheets of ice that wedged themselves in mountain valleys across the region. Since then, these ice sheets have been melting at an astonishing rate due to an increase in temperature: and as of 2015, only 26 glaciers remain. In the next 15 years, the United States Geological Survey projects that all glaciers within the park will be completely melted, drastically shifting an incredible mountainous ecosystem.

In the western states, about 80 percent of all water comes from snow and ice melt in the mountains. During the spring, as temperatures rise, rivers and streams generously flow with water, but within the past few decades, snow and ice sheets have been melting up to two weeks earlier, causing meager summer flows because of a warming climate.

The amount of snow fall in the region is also decreasing steadily. Mountains and glaciers are not receiving enough snow to replenish what has been lost earlier in the year. The water from the melting snow and ice are crucial to the wildlife within and outside of the park, but people who live in the area also depend on the glaciers and snow for drinking water. Once these glaciers disappear, water will become much scarcer, depriving the ecosystem of Earth’s most precious natural commodity.

The disappearance of Montana’s glaciers and snow fields are already having detrimental effects on the region, but one can only imagine the vast transformation the park, and even the state itself, will go through. Because of the lack sufficient snow fall and dwindling streams, many plant populations could decrease, especially those that are reliant on snow melt.

Animal populations could also decline, such as the fragile wolverine population, due to the ongoing transformation of their habitat. Many of the transformations can vary, but Glacier National Park’s current implications could reveal how other mountainous ecosystems, such as the Rocky Mountain region in Colorado, could be affected by rising temperatures.

MJR

*Photo Credit to Mark Wagner: http://commons.wikimedia.org/ /wiki/File:Glacier_National_Park_Hidden_Lake_overview_20060703.jpg Check out previous TES articles: http://on.fb.me/1AXzZnJ http://on.fb.me/1vC74A9

Read more here: New York Times Article: http://www.nytimes.com/2014/11/23/us/climate-change-threatens-to-strip-the-identity-of-glacier-national-park.html?_r=0 USGS Glacial Retreats: http://nrmsc.usgs.gov/research/glacier_retreat.htm USGS G.N.P. Glacier Photography Project:http://nrmsc.usgs.gov/repeatphoto/

Sunday, March 28th, 2020

I decided to cure my boredom during this  shelter in place Illinois has going on, i was going go back on tumblr. I then realized when trying to log in to my account i forgot all log in information so I started a new account. I have been in a funk really the past couple of weeks and it’s been hard to get out of it. After the WGI Michigan Regional we found out that WGI Championships would be canceled, following that the rest of the WGI Regionals of the 2020 Season would be canceled. And shortly after that all color guard circuits across the country were cancelling the rest of their seasons. It would of been our OIPA and MEPA Circuit Championships this weekend. And WGI World Championships would have been next weekend. Sad Panda 

Here’s to hoping this sadness goes away. (I know it will take time) and here’s to hoping I don’t go crazy during this shelter in place/quarantine. 

History has its eyes on you #x17 #lookingback

Day 1 of my 12-Day Magical Mystery Tour

Day 1 - Odessa rehearsal Day 2 - Snarky Puppy concert Day 3 - MAPS Finals + NJPW Capital Collision show in DC Day 4 - GMU rehearsal Day 5 - GMU rehearsal Day 6 - GMU rehearsal + Chantilly sendoff Day 7 - drive to Dayton Day 8 - WGI Prelims Day 9 - WGI Semis Day 10 - WGI Finals Day 11 - drive home from Dayton Day 12 - Odessa rehearsal

Odessa rehearsal went really well tonight. We were missing 3 kids, but the kids that were there showed up, worked hard and I felt like we got a lot of really solid reps tonight. We’re going on last out of 4 groups this weekend in Regional A and have a chance to win MAPS Regional A our first year out as a marching drumline. I feel a little weird because a lot of the groups we were gonna be duking it out against got bumped to A Class. Some of them, I watched their shows at Spring-Ford and I definitely think they were doing A Class shows disguised as Regional shows, while we’re doing a legitimate Regional A show. But it’s a little weird that there’s little competition for us.

Our goal for this year was not to win. We’re only a 2nd year program, 1st year marching, it was only to train the kids and get them used to marching and what this is. Which is why we went to MAPS and not TIA. So the fact we might win is kind of hilarious to all of us. Anyways, I’m really excited for Saturday and we’ll see what happens.