>>141675153 (OP)
бумп

БАМП

https://www.duolingo.com/
начинай с нуля еба

>>141675153 (OP)
Интересные же задания, почему ты не учился? Переводчик?

>>141675153 (OP)
>2017
>не знает английского
>не знает, как делать скриншот (кроме как в пейнте)
>квадратный монитор с хуёвым разрешением
>спермёрка
>касперский
>говно в трее
>интернет експлорер в панели задач
Я бы тебя отправил в армию.

>>141675153 (OP)
Пиздец даун. Нахуй то ты учиться пошел? Ссука, 21 век на дворе, сам живет в пидарахии и, внимание, УЧИТСЯ, НЕ ЗНАЯ АНГЛИЙСКОГО ЯЗЫКА. Вот уж действительно "эту страну не победить" - с такими то людьми она сама сгниет.

>>141675339
Я на работе лол, комп древнее мамки твоей и батиных труханов, скрины блять делать в пейнте, мне даже в голову не пришло на работе фрапс поставить

>>141675641
Как тебя вообще на работу то взяли? У тебя даже охранником работать ума не хватило бы.

>>141675153 (OP)
Корчеватель + английский оригинал.

>>141675252
Нихуя я не переводчик, зоотехник я, учусь норм (бакалавр не красный, но на грани), устроился на работу по специальности, но чет пиздец времени отнимает, все время уходит на статистику, проблемы аквакультуры, так что все аноны которые пишут мол НЕ УЧИШЬ АНГЛИЙСКИЙ - НАХУЙ УЧИШЬСЯ ВООБЩЕ - мне ровным счетом не надо его учить - могу в него на уровне бэйсик и проф перевод. Но у меня кроме иностранного есть предметы, которые куда сложнее выучить и сдать, на бакалавре вообще проблем не было. А тут работа лол. Не сцыте, в армию все равно пойду, я же не мамкин сыч

>>141675677
Но у тебя же хватило, анон. Значит перспектив у меня куда больше, чем у тебя.
мимо вед. спец

>>141675339
>>спермёрка
>>говно в трее

Школьник, плиз.

>>141675757
>Но у меня кроме иностранного есть предметы, которые куда сложнее выучить и сдать,
Заявления уровня "а жопу я не подтираю, у меня кроме подтирания жопы есть гигиенические процедуры, которые куда сложнее выполнять."

>>141675757
Я не понял, что ты от нас хочешь тогда?

>>141675948
Только ситхи все возводят в абсолют. Шел нахуй чмошник, лишь бы доебаться.

>>141676090
Чтоб вы самые умные хикканы на свете, которые английский знают лучше, чем блять коренной британец, помогли мне сделать задания и все. Мне нихуя больше не надо.

>>141676122
У тебя же там почти красный диплом, хуле сам не сделаешь?

>>141676146
Вот поэтому почти, потому что я ебал в рот работать на полной ставке параллельно с учебой на очном. Просто времени нет. Скоро новый год. Давайте по подарку, не безвоздмездно

>>141676209
Хуй соси, быдло.
>мимо_лингвист

>>141676231
Спермы наверни, невежа

Кидай сюда тексты. Когда у тебя дедлайн?

>>141676284
Дедлайн до пт. Ща все будет

Уходить уже надо, выложи всё сюда и сохрани тред на архиваче.

>>141676284
1. Achievements and Peculiarities in Studies of Ancient DNA and DNA from Complicated Forensic Specimens
Ancient DNA studies allow to empirically verify evolutionary hypotheses and contribute to the complex reconstruction of historical changes in biota. The analysis of DNA from human archeological samples reveals information on the genetic traits of ancient inhabitants of various geographical regions. The first published reports on the study of ancient DNA appeared 25 years ago. Researchers managed to extract a DNA fragment from a museum sample of dried muscle tissue taken from a quagga – a South-African odd-toed ungulate animal that disappeared in the 19th century. The extracted DNA fragment was cloned in a phage vector and sequenced. Phylogenetic analysis showed that the determined sequence of the mitochondrial DNA (mtDNA) was related to zebra species [1, 2]. The next study described the extraction, cloning, and sequencing of DNA fragment from a ~2,400-thousandyear-old Egyptian mummy [3]. After these, attempts were made to extract DNA from the remains of animals, plants and microorganisms whose ages ranged from several hundreds to more than a million years (see review in [4]). As the data accumulated, it became clear that the age of the remains that could still have analyzable templates, calculated using kinetics of DNA decay, was not greater than 0.1–1.0 Myr, and that the level of DNA preservation depended on the age and type of the biological sample, and also on the conditions in which it was preserved [5, 6]. Reports on the extraction of DNA from specimens older than 1 Myr are most probably erroneous. The most ancient authentic DNA samples have been isolated from permafrost specimens, such as mammoth, bison and other animal remains, chloroplast DNA from plants, and bacterial DNA [7–12]. Fragments up to 900–1 000 base pairs (bp) have been amplified from these samples. The low temperature and humidity improve DNA preservation, that allows researchers to analyze samples from remains that are tens of thousands of years old (Fig. 1) [13]. Studies of DNA isolated from ancient or historic specimens must deal with a number of methodical problems. These include the exceedingly small quantity and small size of the DNA fragments extracted from ancient samples, as well as the presence of chemical DNA modifications that block DNA replication and cause the appearance of postmortem mutations in the nucleotide sequence. Spontaneous damage of DNA molecules in a living cell is repaired during replication or causes death and elimination. After an organism dies, both the reparation and elimination of cells with damaged DNA come to a halt; that leads to the accumulation of chemical modifications and fragmentation of DNA molecules. Furthermore, the DNA is further destroyed by the organisms of the soil biota. Degradation of ancient DNA makes contamination of the samples by even a single molecule of modern DNA a major cause of false results.

>>141676622
2. Effect of drought stress on some physiological traits of durum (Triticum durum Desf.) and bread (Triticum aestivum L.) wheat genotypes
Wheat (Trticum durum Desf. and Triticum aestivum L.) is one of the major crop plants in the human nutrition, is a sources of energy from carbohydrates and proteins. Drought is the most important limiting factor for wheat production in arid and semiarid regions of the world. Under field conditions important stages of wheat development (stem elongation, heading-flowering, grain filling) is accompanied with increase of water deficit in the soil. Wheat is one of the widely cultivated crops in Azerbaijan, where drought is the main limiting factor for its production (Aliyev, 2001). Moderate to severe water stress drastically affects various morpho-physiological traits in wheat, such as dry matter production, assimilating area, relative water content, and chlorophyll content. Photosynthesis, which is the most significant process influence crop production, is also inhibited by drought stress. The effects can be direct, as the decreased CO2 availability caused by diffusion limitations through the stomata and the mesophyll (Flexas et al., 2004) or the alterations of photochemical reactions (Tang et al., 2002) and photosynthetic metabolism (Lawlor and Cornic, 2002). Under field conditions, stomatal regulation of transpiration was shown as a primary event in plant response to water deficit leading to decrease of CO2 uptake by the leaves (Chaves, 1991, 2002; Cornic and Massacci, 1996). Strengthening of drought during growth period lead to inhibition of photosynthesis through the reactive oxygen species damage to photosynthetic pigments, photosystems I and II, and electron transport proteins. Reduced plant size, leaf area, and leaf area index are a major mechanism for moderating water use and reducing injury under drought stress (Mitchell et al., 1998). It is revealed that varieties, with higher leaf turgor and RWC under stress conditions are more droughts tolerant and gave higher yield than others (Akram, 2011; Khakwani et al., 2011). The present study aims to determine soil water deficit effects on leaf gas exchange, area, dry biomass, chlorophyll and relative water content of six durum wheat (Triticum durum Desf.) and seven bread wheat (Triticum aestivum L.) genotypes and to determine the relationships between some physiological traits, to identify morphophysiological traits as indicators of drought tolerance in wheat genotypes
 
3. Pre-exposure to gamma rays alleviates the harmful effect of salinity on cowpea plants
Salinity in soil or water is one of the major stresses especially in arid and semi-arid regions, can severely limit plant growth and productivity (Mahajan and Tuteja, 2005). According to FAO, more than 800 million hectares of world’s agricultural land are seriously affected by salinity (Munns and Tester, 2008).The deleterious effects of salinity on plant growth are associated with (1) low osmotic potential of soil solution (water stress), (2) nutritional imbalance, (3) specific ion effect (salt stress), or (4) a combination of these factors (Ashraf, 1994). Salinity is often associated with a reduction in photosynthetic capacity (Parida and Das, 2005). et al Photosynthesis may decrease due to stomatal closure or by the direct effect of salt on the photosynthetic apparatus. Malondialdehyde (MDA) content, a product of lipid peroxidation, has been considered an indicator of oxidative damage. Salt stress, like other abiotic stresses, can also lead to oxidative stress through the increase in reactive oxygen species (ROS), such as superoxide (O2 - ), hydrogen peroxide (H2O2) and hydroxyl radicals (OH), which are highly reactive and may cause cellular damage through oxidation of lipids, proteins and nucleic acids (Ben Amor, et al., 2007). ROS cause chlorophyll degradation and membrane lipid peroxidation, reducing membrane fluidity and selectivity. Chlorophyll loss, lipid peroxidation measured as MDA (malondialdehyde, a product of lipid peroxidation) content, and electrolyte leakage are considered to be indicators of oxidative damage (Wise and Naylor, 1987). To minimize the effects of oxidative stress, plants must possess efficient antioxidant system. Plant cells have evolved a complex antioxidant system, which is composed of low molecular mass antioxidants (glutathione, ascorbic acids, α- tocopherol, phenolic compounds and carotenoids) as well as ROS-scavenging enzymes, such as superoxide dismutase (SOD), catalase (CAT), ascorbate peroxidase (APX), guaiacol peroxidase (GPX), and glutathione reductase (GR) (Piotr and Klobus, 2005). Gamma radiation can be useful for the alteration of physiological characters (Kiong et al., 2008). The biological effect of gamma rays is based on the interaction with atoms or molecules in the cell, particularly water, to produce free radicals (Kovacs and Keresztes, 2002). These radicals can damage or modify important components of plant cells and have been reported to affect differentially the morphology, anatomy, biochemistry and physiology of plants depending on the radiation dose (Ashraf et al., 2003). These effects include changes in the plant cellular structure and metabolism e.g., dilation of thylakoid membranes, alteration in photosynthesis, modulation of the antioxidative system and accumulation of phenolic compounds (Ashraf, 2009).The relatively low-doses ionizing irradiation on plants and photosynthetic microorganisms are manifested as accelerated cell proliferation, germination rate, cell growth, enzyme activity, stress resistance and crop yields (Chakravarty and Sen, 2001). On the other hand, the irradiation of seeds with high doses of gamma rays disturbs the synthesis of protein, hormone balance, leaf gas-exchange, water exchange and enzyme activity (Hameed et al., 2008). Cowpea is one of the most important food legume crops in the semi-arid tropics and contains high level of protein. Cowpea is a multipurpose crop and is grown as a grain legume mainly for dry beans and green pods and also as forage, green manure and cover crop. The objective of this work was to investigate whether pre-treatment of dry seeds of cowpea (Vigna sinensis) plants with a low dose of gamma rays (5 Krad) before planting could act as a protective agent to nullify the influence of salt stress.

И контакты свои кинь.

>>141675153 (OP)
суки, не смейте помогать этому долбоебу

>>141676690
Двощ, напомни...

>>141675153 (OP)
>перевести узкоспециализированный текст
>за так
Хуй тебе, вот что.

>>141676682
anon1488tupoirusskii@mail.ru

>>141676788
давай его сюда

>>141675339
двачую
>>141675641
alt+PrntScr тебе тоже работа запрещает юзать?
тупые должны страдать

>>141676830
Стесн

>>141676690
>>141677017
Так почему ты еще здесь, а не на хую своего отчима? Иди страдай

>>141676668
>>141676680
лол, блядь, в каком месте текст узкой специализации? научпоп школьного уровня.
помню переводил развитие черной металургии вот это был пиздец

>>141677075
он же к тебе пошел, вазелин не взял, так что мажься своим

>>141677109
>>141677109
У твоего дегенерата топографический кретинизм, он возле колодца где-то кружится, лево с право перепутал

>>141677178
это у тебя очко уже до "колодца" растянуто? у него зрение плохое, не волнуйся он сейчас или нащупает или унюхает.

>>141677248
В вашей семье у всех инвалидность, или только у вас двоих?

>>141677371
тебе виднее, это мне он отчим, а тебе отец

>>141677385
Ох уж эти ебаные родственники, не пущу в дом, пиздуй на парашу

>>141677493
да мне похуй ваши внутрисемейные разборки, мамка твоя придет и его пустит, вдвоем тебя ебать будут.

>>141675153 (OP)
>2k17
>windows 7

>>141677536
Фублядь, там еще и кашеперовский и экшон-центр. Пиздец.

>>141677698
У тебя дядя лысый рукой лицо закрыл, ему что, неприятно?

>>141677088
Ууу бля мамкин специалист голос подал.
А если вбить текст например в такой сайт
https://readability-score.com/text/
То он оценивается на Average Grade Level 14.6
>A score of around 10-12 is roughly the reading level on completion of high school. Text to be read by the general public should aim for a grade level of around 8.

>>141677956
ахуеть мерилка я ржу:
"1: The House of Representatives shall be composed of Members chosen every second Year by the People of the several States, and the Electors in each State shall have the Qualifications requisite for Electors of the most numerous Branch of the State Legislature.

2: No Person shall be a Representative who shall not have attained to the Age of twenty five Years, and been seven Years a Citizen of the United States, and who shall not, when elected, be an Inhabitant of that State in which he shall be chosen.

3: Representatives and direct Taxes shall be apportioned among the several States which may be included within this Union, according to their respective Numbers, which shall be determined by adding to the whole Number of free Persons, including those bound to Service for a Term of Years, and excluding Indians not taxed, three fifths of all other Persons.2 The actual Enumeration shall be made within three Years after the first Meeting of the Congress of the United States, and within every subsequent Term of ten Years, in such Manner as they shall by Law direct. The Number of Representatives shall not exceed one for every thirty Thousand, but each State shall have at Least one Representative; and until such enumeration shall be made, the State of New Hampshire shall be entitled to chuse three, Massachusetts eight, Rhode-Island and Providence Plantations one, Connecticut five, New-York six, New Jersey four, Pennsylvania eight, Delaware one, Maryland six, Virginia ten, North Carolina five, South Carolina five, and Georgia three.

4: When vacancies happen in the Representation from any State, the Executive Authority thereof shall issue Writs of Election to fill such Vacancies.

5: The House of Representatives shall chuse their Speaker and other Officers; and shall have the sole Power of Impeachment."
оценено в
Average Grade Level 18.0