In this study, near-infrared spectroscopy (NIRS) was used to predict the contents of essential macro- and microelements in common bean (Phaseolus vulgaris L.) accessions of most widespread Croatian ...landraces. Total of 175 samples were used for the model development by modified partial least square (MPLS), principal component regression (PCR) and partial least square (PLS) techniques. Based on the coefficients of determination (R2), standard error of calibration (SEC) and error of prediction (SEP) the models developed were (i) nearly applicable for nitrogen (N) (0.89, 0.12 and 0.45 respectively), (ii) poor for iron (Fe), cinc (Zn), potassium oxide (K2O) and potassium (K), (iii) usable for phosphorus pentoxide (P2O5), phosphorus (P), phytic acid (PA) and manganese (Mn). The MPLS regression statistics suggested the most accurate models developed comparing with PLS and PCR. It was concluded that a wider set of common bean samples needs to be used for macro- and microelements prediction by NIRS.
U ovome je istraživanju korištena spektroskopija u bliskome infracrvenom području (NIRS) za procjenu količine esencijalnih makro- i mikroelemenata u uzorcima najčešće uzgajanih kultivara graha (Phaseolus vulgaris L.) u Republici Hrvatskoj. Ukupno 175 uzoraka graha korišteno je za razvoj kalibracije uporabom modificirane metode najmanjih kvadrata (MPLS), metode regresije osnovne komponente (PCR) i metode najmanjih kvadrata (PLS). S obzirom na koeficijent korelacije (R2), standardnu grešku kalibracije (SEC) i standardnu grešku procjene (SEP), razvijeni kalibracijski modeli su (i) gotovo primjenjivi za procjenu dušika (N) (0,89; 0,12 i 0,45), (ii) slabo primjenjivi za procjenu željeza (Fe), cinka (Zn), kalijevog oksida (K2O) i kalija (K) te (iii) upotrebljivi za fosfor pentoksid (P2O5), fosfor (P), fitinsku kiselinu (PA) i mangan (Mn). Najpouzdaniji kalibracijski modeli razvijeni su korištenjem regresijskoga modela MPLS u usporedbi s kalibracijskim modelima dobivenim korištenjem PLS-a i modelima PCR-a. Zaključeno je da je za procjenu makro- i mikroelemenata spektroskopijom u bliskome infracrvenom području (NIRS) potrebno prikupiti veći broj uzoraka graha širih varijacija istraživanih makro- i mikroelemenata.
Dalmatian pyrethrum (Tanacetum cinerariifolium /Trevir./ Sch. Bip.) is a perennial herbaceous plant belonging to the Asteraceae family. It is endemic to the East coast of the Adriatic Sea and its ...natural habitat extends from Italy to northern Albania and up in the mountainous regions of Croatia, Bosnia and Herzegovina and Montenegro. Pyrethrum flowers yield an important insecticide, the pyrethrin. Pyrethrin is mainly concentrated in oil glands on the surface of the seed inside the tightly packed flower head, but they can also be found in the other plant parts, however in much lower concentrations. The pyrethrin exist as a combination of six insecticide active ingredients: pyrethrin I, cinerin I, jasmolin I, pyrethrin II, cinerin II and jasmolin II, with pyrethrin I and pyrethrin II present in higher concentrations. Pyrethrin is non-toxic to mammals and other worm-blooded animals, it is unstable in light, oxygen, water and at elevated temperatures and therefore highly biodegradable. Due to the fact it is environmentally safe it is leading insecticide in organic farming systems. The most scientific work concerning Dalmatian pyrethrum was focused on its morphological and biochemical traits that are relevant in breeding. Breeding programmes are primarily focused on increasing the yield of pyrethrin per unit area. Relative to dry flower weight, flower heads contain the majority of the pyrethrin. Croatian wild populations contain approximately 0.60 to 0.79 %, while clones in breeding programmes of Australia and Kenya contain up to 3.0 % of pyrethrin.
Neven (
Calendula officinalis
L.) je poznat po svojim ljekovitim svojstvima kao i primjeni u medicinskoj, kemijskoj, kozmetičkoj i prehrambenoj industriji. Prilagođen je umjerenoj klimi te mu je ...optimalna temperatura klijanja 20 °C. Klijanje sjemena i rani rast sadnica su najosjetljiviji stadiji na abiotske stresove, kao što su nepovoljna temperatura i suša, a predsjetveni tretmani sjemena pozitivno utječu na svojstva klijavosti ili kvalitetu sjemena i sadnica u stresnim uvjetima. S obzirom da se sjetva nevena obavlja čim se uspostave minimalni uvjeti, a tada temperature i količine oborina mogu biti znatno niže od optimalnih, cilj ovog istraživanja bio je utvrditi utjecaj predtretmana na svojstva klijavosti sjemena nevena u uvjetima niskih temperatura i suše (-0,8 MPa PEG 6000). Laboratorijskim pokusom istražen je utjecaj temperature (14 °C, 18 °C i 22 °C) na klijavost sjemena nevena uz predtretmane dH2O i GA3 (250 ppm) u trajanju od 24 h. Netretirano sjeme je predstavljalo kontrolu. Utvrđeno je da sjeme nevena ne klije u uvjetima suše bez obzira na predsjetveni tretman i na temperaturu pri kojoj je klijalo. Ni temperatura niti predtretman sjemena ne utječu značajno na broj proklijalih sjemenki nevena, ali utječu na brzinu klijanja.
Marigold
(Calendula officinalis
L.) is known for its medicinal properties and is used in the medical, chemical, cosmetic, and food industries. It is adapted to a temperate climate and its optimum germination temperature is 20 °C. Seed germination and early seed ling growth are the most sensitive to abiotic stresses such as unfavourable temperatures and drought, while seed priming has a positive effect on germination properties of seed and seed ling quality under stressful conditions. Since sowing of marigolds is done as soon as the minimum conditions are established, when temperature sand precipitation canbes ignificantly lower than optimal, the aim of this study was to determine the impact of seed priming on the germination properties of marigold seeds under low temperature and drought (-0.8 MPa PEG 6000). The effect of temperature (14 °C, 18 °C, and 22 °C) on germination of marigold seeds with treatments containing dH2O and GA3 (250 ppm) for 24 h was studied under laboratory conditions. Untreated seed represented control. Marigold seeds did not germinate under drought conditions, regard less of seed priming treatments and temperatures. It was also found that neither temperature nor seed priming significantly affected the number of germinated marigold seeds, but did affect the germination rate.
The lack of plant nutrients is a major problem for agriculture. Because of their essential role in the most important metabolic processes of plants, their deficiency depresses photosynthesis and ...disrupts the efficient operation of the photosynthetic apparatus. In this study, we investigated the gas exchange of common beans bean under the N, P, K, Mg, and Fe deficiency. The experiment was set up as a hydroponic, fully aerated, floating system in 6 hydroponic tubs. Each hydroponic tub contained 10 plants and was filled with a modified Hoagland nutrient solution. One group of plants was grown in a complete nutrient solution (control), while the other treatments lacked one of the following nutrients: N, P, K, Mg and Fe. During the experiment, gas exchange parameters: net photosynthetic rate (A), transpiration rate (E), stomatal conductance (g.sub.s) and intercellular CO.sub.2 concentration (C.sub.i) were measured. At the end of the experiment, the nutrient content of the plant tissue was determined. Nutrient deficiency significantly affected all measured photosynthetic parameters and visual symptoms indicated that a lack of different nutrients affected the photosynthetic machinery at different points. Potassium deficiency lower stomatal conductance and increased mesophyll resistance to CO.sub.2 diffusion and/or RubisCO activity. Nitrogen and Mg deficiency affected chlorophyll synthesis and accelerated leaf senescence. Phosphorus deficiency caused less damage to gas exchange parameters probably due to protective mechanisms of reduced leaf area. Seed Fe content was surplus to sustain photosynthetic machinery during the early developmental phase.
Common bean u uvjetima nedostatka hranjiva Javornik, Tomislav; Poljak, Milan; Carovic-Stanko, Klaudija ...
Journal of Central European agriculture,
03/2023, Letnik:
24, Številka:
1
Journal Article
Recenzirano
The lack of plant nutrients is a major problem for agriculture. Because of their essential role in the most important metabolic processes of plants, their deficiency depresses photosynthesis and ...disrupts the efficient operation of the photosynthetic apparatus. In this study, we investigated the gas exchange of common beans bean under the N, P, K, Mg, and Fe deficiency. The experiment was set up as a hydroponic, fully aerated, floating system in 6 hydroponic tubs. Each hydroponic tub contained 10 plants and was filled with a modified Hoagland nutrient solution. One group of plants was grown in a complete nutrient solution (control), while the other treatments lacked one of the following nutrients: N, P, K, Mg and Fe. During the experiment, gas exchange parameters: net photosynthetic rate (A), transpiration rate (E), stomatal conductance (g.sub.s) and intercellular CO.sub.2 concentration (C.sub.i) were measured. At the end of the experiment, the nutrient content of the plant tissue was determined. Nutrient deficiency significantly affected all measured photosynthetic parameters and visual symptoms indicated that a lack of different nutrients affected the photosynthetic machinery at different points. Potassium deficiency lower stomatal conductance and increased mesophyll resistance to CO.sub.2 diffusion and/or RubisCO activity. Nitrogen and Mg deficiency affected chlorophyll synthesis and accelerated leaf senescence. Phosphorus deficiency caused less damage to gas exchange parameters probably due to protective mechanisms of reduced leaf area. Seed Fe content was surplus to sustain photosynthetic machinery during the early developmental phase. Keywords: transpiration, net photosynthetic rate, stomatal conductance, intercellular CO.sub.2 concentration Nedostatak biljnih hranjiva je veliki problem za poljoprivredu. Zbog njihove bitne uloge u kljucnim metabolickim procesima biljaka, nedostatak hranjiva smanjuje fotosintezu i remeti ucinkoviti rad fotosintetskog sustava. U ovome radu smo mjerili izmjenu plinova kod graha u uvjetima nedostatka N, P, K, Mg i Fe. Pokus je bio postavljen kao hidropon, plutajuci sistem u 6 hidroponskih kada. Svaka hidroponska kada sadržavala je 10 biljaka, te je bila ispunjena modificiranom Hoaglandovom hranjivom otopinom. Jedna grupa biljaka je uzgajana u kompletnoj hranjivoj otopini (kontrola), dok je kod drugih tretmana nedostajalo neko odredeno hranjivo: N, P, K, Mg ili Fe. Tijekom pokusa mjereni su parametri izmjene plinova: stopa fotosinteze (A), stopa transpiracije (E), provodljivost puci za H.sub.2O (g.sub.s), te intercelularna koncentracija CO.sub.2 (C). Pri završetku pokusa odreden je sadržaj hranjiva u biljnome materijalu. Nedostatak hranjiva statisticki je znacajno utjecao na sve izmjerene fotosintetske parametre, a vizualni simptomi ukazuju da nedostatak razlicitih hranjiva razlicito utjece na fotosinetski sustav. Nedostatak K smanjuje provodljivost puci i povecava otpor mezofila za difuziju CO.sub.2 i/ili RubisCO aktivnost. Nedostatak N i Mg je utjecao na sintezu klorofila i ubrzavao starenje listova. Nedostatak P manje je naštetio parametrima izmjene plinova vjerojatno zbog zaštitnog mehanizma smanjene površine lista. Sadržaj Fe u sjemenu bio je dovoljan za održavanje fotosintetskog sustava tijekom rane faze razvoja. Kljucne rijeci: transpiracija, stopa fotosinteze, provodljivost puci, intercelularna koncentracija CO.sub.2
Common bean (Phaseolus vulgaris L.) is the most widespread legume in Croatia and its production is based on landraces of great morphological diversity. Landraces morphologically differ the most in ...the seed coat color and size. Because plant emergence and crop establishment represent the most sensitive stage in crop development, the aim of this study was to determine whether the seed coat color and seed size of Croatian common bean landraces affect the water absorption rate, seed germination, emergence and phenotypic characteristics of the seedlings. In this study seeds of four common bean landraces with different seed color and size, ‘Biser’ (white-colored, small-seeded), ‘Bijeli’ (white-colored, large-seeded), ‘Kornjača’ (dark-colored, small-seeded) and ‘Trešnjevac’ (dark-colored, large-seeded) were evaluated in three different experiments: (i) water uptake, (ii) seed germination and (iii) emergence and seedling phenotypic characterization. The results show that white-colored seeds have a higher absorption rate and release more electrolytes compared to dark-colored seeds of similar size (and weight). The germination results show that white-colored and smaller seeds germinate faster compared to dark-colored and large seeds. On the other hand, the white-colored landrace ‘Bijeli’ took the longest time to emerge, probably due to cell damage that occurred during the fast initial water absorption. Using multispectral imaging, chlorophyll fluorescence imaging and stomatal conductance analysis, the seedlings of the dark-colored and large-seeded landraces were found to contain more photosynthetic pigments and have higher light absorption. In contrast, seedlings of white-colored and large seeds have lower stomatal conductance and transpiration and higher photochemical efficiency (despite possible cell damage during water absorption and germination). Results suggest that dark-colored seeds could survive better under unfavorable soil conditions without absorbing water, swelling, emergence or molding than white-colored seeds. Despite all this, white-colored common bean landraces remain popular in human diets and are often grown on small-scale farms.
Crop production might suffer severe economic losses due to insufficient fertiliser availability. Specific signs of nutrient shortage influence plant morphology and physiology. This study pioneers the ...non-destructive tracking and characterization of nutrient deficiency symptoms in common beans using multispectral and chlorophyll fluorescence imaging, offering novel insights into the dynamic responses of plant morphology and physiology to specific nutrient shortages. Plants were cultivated in nutrient solutions with and without nitrogen (N), phosphorus (P), potassium (K), magnesium (Mg), iron (Fe) and control solution. Measurements were taken every three days for 12 days (MT1-MT4) of growth. K and N deficit plants had the earliest symptoms and most noticeable changes, whereas Fe deficiency plants had the slowest and least noticeable symptoms. Except for Fe, the most responsive chlorophyll fluorescence parameter was electron transport rate, which was reduced in plants from all nutrient deprivation treatments compared to control. All nutrient deficit treatments reduced leaf area at MT2, which was the most affected morphological parameter. The green leaf index, reflection in blue, and specific green were the most affected multispectral traits by nutritional deprivation. These findings demonstrate that plant nutrient deficit can be recognized and tracked non-destructively utilizing multispectral and chlorophyll fluorescence analysis. Overall, our work not only sheds light on the dynamics of nutrient deficiency in common bean plants but also offers practical implications for improving crop management strategies using non-destructive digital technology.