Results 271 to 279 of about 104,517 (279)
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Physiologia Plantarum, 2001
Vacuolar pyrophosphatase (V‐PPase) from juice cells of 3 citrus varieties (differing in their vacuolar pH) were partially characterized using purified tonoplast vesicles. Total V‐PPase activity was highest in vesicle samples from sweet limes with vacuolar pH of 5.0, while samples from acid limes (with lowest vacuolar pH of 2.0) had the minimal total V ...
Kenneth, Marsh +2 more
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Vacuolar pyrophosphatase (V‐PPase) from juice cells of 3 citrus varieties (differing in their vacuolar pH) were partially characterized using purified tonoplast vesicles. Total V‐PPase activity was highest in vesicle samples from sweet limes with vacuolar pH of 5.0, while samples from acid limes (with lowest vacuolar pH of 2.0) had the minimal total V ...
Kenneth, Marsh +2 more
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Saponifikasi Limbah Jeruk Nipis (citrus aurantifolia) dengan Penambahan Larutan NaOH pada pH 11
Jurnal Chemtech, 2016Pektin adalah polisakarida yang terdapat di dalam dinding sel buah-buahan, yang dapat diekstrak dari kulit buah setelah pemrosesan. Keberadaan pektin dalam dinding sel buah sangat beragam jumlahnya dan memiliki kandungan nutrisi yang penting. Tujuan dari penelitian ini adalah untuk mempelajari pengaruh dari pH netral dan 1.
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Effects of copper rates and soil ph on growth and nutrient uptake by citrus seedlings
Journal of Plant Nutrition, 1999Abstract Soil properties, primarily pH and organic matter, influence phytotoxicity of copper (Cu). A pot experiment was conducted to evaluate the effects of copper additions (0, 25, 50, 100, 200, and 400 mg kg−1) to three different soils [Myakka fine sand (pH 5.7), Candler fine sand (pH 6.5), and Oldsmar fine sand (pH 8.2)] on growth, and uptake of ...
A. K. Alva +3 more
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Environmental Pollution, 2019
Boron (B)-deficiency and H+-toxicity are important limiting factors for plants growth in acid soils. High B supply may reduce H+-toxicity-induced inhibition of growth in citrus. Trifoliate orange rootstock seedlings were irrigated with nutrient solution containing either 0 μM or 10 μM H3BO3 at two pH levels (pH4 (H+-toxicity) and pH6 (normal)).
Lei, Yan +3 more
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Boron (B)-deficiency and H+-toxicity are important limiting factors for plants growth in acid soils. High B supply may reduce H+-toxicity-induced inhibition of growth in citrus. Trifoliate orange rootstock seedlings were irrigated with nutrient solution containing either 0 μM or 10 μM H3BO3 at two pH levels (pH4 (H+-toxicity) and pH6 (normal)).
Lei, Yan +3 more
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Citrus: Origin, Evolution, Postharvest, Heat, pH, Filtration, and Transgenic
2020Francisco Torrens, Gloria Castellano
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Physiological, biochemical and molecular responses to low pH stress in citrus junos seedlings
The Journal of Horticultural Science and Biotechnology, 2023Li Zheng, Rangjin Xie, Li Zhu
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SOME EFFECTS OF pH ON THE GROWTH OF CITRUS IN SAND AND SOLUTION CULTURES
Soil Science, 1944PAUL L. GUEST, H. D. CHAPMAN
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SCP and pectinases production from citrus waste: from batch to pH-stat
2011TROPEA, ALESSIA, GERVASI, TERESA
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