14 research outputs found
Cercospora leaf spot of sugar beet ā the most significant disease on sugar beet
Pjegavost liÅ”Äa je najznaÄajnija bolest Å”eÄerne repe i izaziva ekonomski najveÄe Å”tete kroz smanjenje prinosa i sadržaj Å”eÄera u korijenu. Äuvanje zdravog lista i sprijeÄavanje razvoja gljive Cercospora beticola Sacc., u naÅ”im proizvodnim uvjetima osnovni je preduvjet odliÄnog prinosa i kvalitete korijena.Leaf spot is the most significant disease on sugar beet and it causes the highest economic damages through the decrease in yield and the content of sugar in root. Keeping a healthy leaf and preventing the development of the fungus Cercospora beticola Sacc. in our production conditions is the basic precondition of an excellent yield and the quality of root
Protection of sugar beet
ZaÅ”tita Å”eÄerne repe vrlo je važna tehnoloÅ”ka mjera koja direktno utjeÄe na visinu prinosa i kakvoÄu korijena. NajuÄinkovitiji naÄin zaÅ”tite je kombinacija dobro provedenih, svih drugih tehnoloÅ”kih mjera koje omoguÄavaju formiranje zdravog i otpornog usjeva Å”eÄerne repe optimalnog sklopa s primjenom potrebnih pesticida.Protection of sugar beet is a very important technological measure, which directly affects the level of yield and root quality. The most effective way of protection is a combination of a good implementation of all the other technological measures, which enable the forming of healthy and resistant sugar beet crop within the optimal complex with application of the needed pesticides
CARBOCALK IN THE PRODUCTION OF SUGAR- BEET
U intenzivnoj poljoprivredi, a uslijed prirodnih procesa i antropogenih Äimbenika, veÄina tala proizvodnog podruÄja Å”eÄerne repe bilježi pad pH vrijednosti tla Äime se smanjuje njihov proizvodni potencijal. KoriÅ”tenjem vapnenih materijala mjerom kalcifikacije popravlja se pH tla Å”to uzrokuje pozitivne reakcije kod ostalih svojstava tla. Jedan od kvalitetnih vapnenih materijala je karbokalk koji je pokazao odliÄne rezultate u proizvodnji Å”eÄerne repe.In intensive agriculture, and because of natural processes and anthropogenic factors, most of the soils of the production areas of sugar- beet record a decrease in the pH- value. That decreases their production potential. Using calcareous materials by calcification method improves the pH- value of the soil, which has positive impact on other characteristics of the soil. One of the calcareous materials which has shown excellent results in sugar- beet production is carbocalk
Dangerous weed pests in sugar beet
ZaÅ”tita Å”eÄerne repe od korova je najosjetljivija agrotehniÄka mjera u proizvodnji te kulture jer zahtijeva najviÅ”e znanja i struÄnosti. Prepoznavanje i poznavanje karakteristika pojedinih korovnih vrsta u Å”eÄernoj repi je kljuÄno za njenu uspjeÅ”nu proizvodnju.The protection of sugar beet from weed pest is the most sensitive agrotechnical measure in production of this crop because it requires a lot of knowledge and expertise. To know and to recognize the characteristics of certain weed pests in sugar beet is of key importance for its successful production
Pests of sugar beet
NaÄin dorade sjemena Å”eÄerne repe, klimatske prilike te geografske specifiÄnosti zadnjih godina uzrokuju promjene u pojavi i brojnosti pojedinih vrsta Å”tetnika Å”eÄerne repe i visinama Å”teta koje uzrokuju. Poznavanje utjecaja tih Äimbenika, njihove pojave te same njihove biologije, pridonosi sprjeÄavanju ili smanjenju Å”teta.The method of processing sugar beet seed, climate and geographical features, in recent years have caused by changes in the occurrence and abundance of some species of pests of sugar beet and the amount of damage they cause. Being familiar with the impact of these factors, their appearance and their own biology helps to prevent or reduce such damages
Damages on sugar beet in first stages of development
Najosjetljiviji period Å”eÄerne repe u kojem se javljaju i najveÄe Å”tete je sam poÄetak rasta i razvoja. SprjeÄavanje nastanka Å”teta u tom periodu znaÄi osnovu za dobivanje odliÄnog prinosa i kvalitete korijena.The most sensitive period of sugar beet, in which the biggest damages occur, is the beginning of growth and development itself. Prevention of damages in this period represents the base for acquiring excellent yield and root quality
Damages on sugar beet in first stages of development
Najosjetljiviji period Å”eÄerne repe u kojem se javljaju i najveÄe Å”tete je sam poÄetak rasta i razvoja. SprjeÄavanje nastanka Å”teta u tom periodu znaÄi osnovu za dobivanje odliÄnog prinosa i kvalitete korijena.The most sensitive period of sugar beet, in which the biggest damages occur, is the beginning of growth and development itself. Prevention of damages in this period represents the base for acquiring excellent yield and root quality
Protection of sugar beet
ZaÅ”tita Å”eÄerne repe vrlo je važna tehnoloÅ”ka mjera koja direktno utjeÄe na visinu prinosa i kakvoÄu korijena. NajuÄinkovitiji naÄin zaÅ”tite je kombinacija dobro provedenih, svih drugih tehnoloÅ”kih mjera koje omoguÄavaju formiranje zdravog i otpornog usjeva Å”eÄerne repe optimalnog sklopa s primjenom potrebnih pesticida.Protection of sugar beet is a very important technological measure, which directly affects the level of yield and root quality. The most effective way of protection is a combination of a good implementation of all the other technological measures, which enable the forming of healthy and resistant sugar beet crop within the optimal complex with application of the needed pesticides
Utjecaj benefitnih mikroorganizama na prinos i kvalitetu soje u uvjetima smanjene gnojidbe duŔikom
The aim of this study was to investigate the possibility to reduce the application of mineral nitrogen fertilizers through the application of beneficial microorganisms (genus Bradyrhizobium, Azotobacter, bacteria Pseudomonas fluorescens, Bacillus spp., etc.). Research was conducted during 2013 and 2014 on Eutric brown soil. The experiment was set up in a split-block scheme with 12 different variants in 4 repetitions: two soybean cultivars were used; two different treatments of nitrogen fertilizers and three different treatments of microbiological preparation were applied. Analysed parameters were soybean grain yield (kg/ha) based on 13% moisture, protein content (%), oil content (%) and hectolitre mass (kg). Given that the climatic conditions in the second year of research were more favourable than in the first year of research, all the elements of research, including control variants, achieved better results in the second year of research. All variants treated with microbiological preparations, either by application in soil or by application in soil combined with foliar treatments, also achieved statistically significant differences compared to the control variants.U radu je istraživana moguÄnost redukcije duÅ”iÄnih gnojiva uz koriÅ”tenje benefitnih mikroorganizama (rodovi Bradyrhizobium, Azotobacter, bacterija Pseudomonas fluorescens, Bacillus spp., itd.), kao alternative duÅ”iÄnim gnojivima. Istraživanja su provedena tijekom 2013. i 2014. godine na eutriÄno smeÄem tlu. Pokus je postavljen prema split-blok shemi te sadrži 12 varijanti u 4 ponavljanja kako slijedi: dvije sorte soje, dvije varijante primjene mineralnoga duÅ”iÄnoga gnojiva i tri varijante primjene mikrobioloÅ”koga preparata. Elementi istraživanja bili su prinos zrna (kg/ha), preraÄunat po hektaru na osnovi 13% vode u zrnu; sadržaj proteina (%); sadržaj ulja (%) i hektolitarska masa (kg). S obzirom na to da su klimatske prilike u drugoj godini istraživanja bile povoljnije nego u prvoj istraživaÄkoj godini, svi elementi istraživanja, ukljuÄujuÄi kontrolne varijante, druge godine istraživanja, postigli su bolje rezultate. Sve varijante tretirane mikrobioloÅ”kim preparatima, bilo aplikacijom u tlo ili aplikacijom u tlo uz folijarne tretmane, takoÄer su postigli statistiÄki vrlo znaÄajno bolje rezultate u odnosu na kontrolne varijante
Influence of microbial preparation and nitrogen fertilization on yield and quality of sugar beet root
Istraživanja su provedena u istoÄnoj Hrvatskoj na dva lokaliteta tijekom tri vegetacijske godine. U pokusu su
ukljuÄena Äetiri hibrida hibrida Å”eÄerna repe, od kojih su dva tolerantna, a dva osjetljiva na patogenu gljivu
Rhizoctonia solani KĆ¼hn. Pokusi su postavljeni po split ā blok shemi u 4 ponavljanja na dva tipa tla, na svakom u
24 razliÄite varijante. Elementi istraživanja bili su: A. Hibrid (A1 - tolerantan na patogenu gljivu R. solani (Santino
ā Strube); A2 - tolerantan na patogenu gljivu R. solani (Jadranka - KWS); A3 - osjetljiv na patogenu gljivu R.
solani (Fred - Strube); osjetljiv na patogenu gljivu R. solani (Terranova ā KWS)); B. Primjena mikrobioloÅ”kog
pripravka EM Aktiv (B1 ā kontrola; B2 - tretman tla (40 l/ha); B3 - tretman tla (30 l/ha) + folijarna primjena (10
l/ha)); C. Gnojidba duŔikom (C1 - na osnovu rezultata analize tla; C2 - reducirana za 30%). Prisustvo patogene gljive
R. solani potvrÄeno je uzastopno 3 godine na oba tipa tla koja su se koristila u pokusu tzv. Ā«brzom metodomĀ» koja
je prihvaÄena u svijetu i uvrÅ”tena u standardne metode dokazivanja prisustva patogene gljive R. solani u biljkama
(STRUBE ā DIECKMANN; Alert LFTM) kao i izolacijom patogena koriÅ”tenjem selektivnih podloga Potatoe
dekstrose agar te Corn meal agar. MikrobioloŔki pripravak EM Aktiv sadrži P. fluorescens, B. megaterium i B.
subtilis. Ove benefitne bakterije svojim eksudatima mikrobicidno djeluju na patogene gljive u tlu ā uzroÄnike truleži
korijena Å”eÄerne repe. Nadalje, mikrobioloÅ”ki pripravak sadrži i duÅ”iÄne bakterije Azotobacter chroococcum i
Azospirillum brasilense. U varijantama gdje je primijenjen biopreparat, bilo samo apliciran u tlo ili apliciran u tlo i
folijarno, u odnosu na kontrolnu varijantu, dobiven je niži prosjeÄni postotak inficiranih i propalih biljaka, sadržaj
kalija, natrija i alfa-amino duÅ”ika i Å”eÄera, kao i viÅ”i prinos korijena, sadržaj Å”eÄera, postotak iskoriÅ”tenja Å”eÄera na
repu i prinos Äistog Å”eÄera. Tolerantni hibridi su u odnosu na osjetljive hibride ostvarili niži prosjeÄni postotak
inficiranih i propalih biljaka, sadržaj kalija, natrija i alfa-amino duÅ”ika i Å”eÄera, kao i viÅ”i prinos korijena, sadržaj
Å”eÄera, postotak iskoriÅ”tenja Å”eÄera na repu i prinos Äistog Å”eÄera. MeÄutim, znaÄajno veÄa je razlika izmeÄu
kontrolne varijante i varijanti u kojima je primijenjen biopreparat kod deklarirano osjetljivih hibrida u odnosu na
deklarirano tolerantne hibride.The investigations were conducted in Eastern Croatia on two sites during three vegetation years. Four sugar beet
hybrids were included in the experiment, two tolerant and two sensitive to the pathogenic fungus Rhizoctonia solani
KĆ¼hn. The experiments were set up according to a split - block scheme in 4 repetitions on two soil types, each in 24
different variants. Elements of the study were: A. Hybrid (A1 - tolerant to pathogenic fungi R. solani (Santino ā
Strube); A2 - tolerant to pathogenic fungi R. solani (Jadranka - KWS); A3 - sensitive to pathogenic fungi R. solani
(Fred - Strubs); sensitive to pathogenic fungus R. solani (Terranova - KWS)); B. Application of microbiological
preparation EM Aktiv (B1 - control; B2 - soil treatment (40 l / ha); B3 - soil treatment (30 l / ha) + foliar application
(10 l / ha)) C. Nitrogen fertilization (C1 - based on soil analysis results; C2 - reduced by 30%)). The presence of the
pathogenic fungus R. solani was confirmed using the so-called āfast methodā repeatedly for all 3 years on both soil
types used in the experiment. The "fast method" is accepted worldwide and is included in the standard methods of
demonstrating the presence of the pathogenic fungus R. solani in plants (STRUBE - DIECKMANN; Alert LFTM).
Also, R. solani was confirmed through the isolation of pathogens using selective media as Potato dextrose agar and
Corn meal agar. The microbiological preparation EM Aktiv contains P. fluorescens, B. megaterium and B. subtilis.
Because of their exudats, these beneficial bacteria have a microbicidal effect on pathogenic fungi in the soil -
causative agents of sugar beet root rot. Furthermore, the microbiological composition contains nitrogenous bacteria
A. chroococcum and A. brasilense. In variants where biopreparation was applied, either solely applied into the soil
or applied into the soil and foliar, compared to the control variant, a lower average percentage of infected and failed
plants, potassium, sodium and alpha-amino nitrogen and sugar content was obtained, as well as higher root yield,
sugar content, percentage of sugar utilization in beet root and pure sugar yield. Tolerant hybrids achieved a lower
average percentage of infected and failed plants, potassium, sodium and alpha-amino nitrogen and sugar content than
sensitive hybrids, as well as higher root yield, sugar content, sugar beet yield and pure sugar yield. However,
significantly higher is the difference between the control variants and variants with biopreparation observing
sensitive hybrids than it is on the variants with tolerant hybrids