Abstracts of Nippon Dojo-Hiryogaku Zasshi

(Japanese Journal of Soil Science and Plant Nutrition)

Vol. 85 (2014)

No. 4 (pp. 315–391)

Original Papers

Chemical and mineralogical properties of red─yellow soil in Shimajiri mudstone zone

Kazutoshi KINJO¹, Miwako ARASAKI^1,2, Masahiro ASATO³ and Yoshihiro TOKASHIKI¹

¹Fac. Agric., Univ. Ryukyus, ²Japan Agric. Co-operatives,

³Subtropical Field Sci. Ctr., Fac. Agric., Univ. Ryukyus

(Jpn. J. Soil Sci. Plant Nutr., 85, 315–321, 2014)

Shimajiri mudstone is found in the southern parts of Okinawa and Miyako islands. Red─yellow soil was recently found in the Shimajiri mudstone zone on Okinawa. Previous instances of the weathering of this mudstone to red─yellow soil have not been found. We investigated the chemical and mineralogical properties of the red─yellow soil and the weathering of the mudstone. The research area in the southern part of Okinawa, managed by the University of the Ryukyus, has many trees and has never been cropped. We sampled soil at three sites from the top of a slope (site 1) to the bottom (site 3). The soil at sites 1 and 2 was red─yellow and that at site 3 was gray. The soil at site 1 was acidic and that at site 3 was alkaline. The gray soil had a lower clay fraction (smectite) than the red─yellow soil. The chemical and mineralogical properties of the gray soil suggest that it is derived from Shimajiri mudstone. The mudstone had more structural and exchangeable calcium than the red-yellow soil, possibly owing to the leaching of minerals and the weathering of smectite from the mudstone at the top of the slope. The properties of free iron oxide in the B and C horizons indicated that the activity of Fe₂O₃(Iron Oxide) (Fe_o (Iron extracted with Citrate-dithionite)/Fe_d (Iron extracted with NH4-oxalate-oxlix acid)) increased and the crystallization ratio ((Fe_d─Fe_o)/Fe_t (Iron extracted with perchloric acid and nitric acid)) decreased toward the bottom of the slope. These results indicate that weathering of the (gray) B horizon soil at the top of the slope oxidized the iron to a red─yellow. These results suggest that the soil at the top of the slope began as Shimajiri mudstone. Long─term exposure to wind and rain leached cations out, leaving free iron oxide, which gave the soil its red─yellow coloration.

Key words: clay minerals, free oxide iron, red─yellow soil, Shimajiri mudstone.

Easy soil extraction method using hydrochloric acid to estimate multiple nutrients

Yoshitaka HARA

Kyushu Okinawa Agric. Res. Cent., Nat. Agric. Food Res. Org.

(Jpn. J. Soil Sci. Plant Nutr., 85, 322–332, 2014)

To reduce the work involved in soil analysis used to identify fields with adequate nutrients so as to reduce fertilizer applications, I devised an easy soil extraction method to allow the analysis of multiple nutrients. When a mixture of 10 mL of 0.2 mol L^─1 hydrochloric acid (HCl) and 1 g of soil was shaken for 1 h, the extracted nitrate nitrogen, ammonium nitrogen, sodium and potassium contents almost exactly equalled the exchangeable contents. Although the extracted magnesium and calcium contents were greater than the exchangeable contents, the latter could be calculated from the former when the pH of the soil was < 7. The extracted phosphorus content equalled the available phosphorus content determined by the Bray No. 2 method. The extracted carbon content had a relationship with the soil nitrogen content. This extraction method offers several advantages: The solution is easily prepared. The quantities are small, necessitating only small extraction bottles. The avoidance of non─volatile solutes avoids clogging of analytical equipment such as atomic absorption spectrophotometers. And the labor needed to estimate multiple nutrients is reduced.

Key words: nitrogen, nutrients, phosphorus, potassium, soil analysis, soil extraction.

Estimating differences in cadmium content among vegetable species by using soil cadmium extraction method

Kazuki TOGAMI and Kenzo MIURA

NARO Tohoku Agric. Res. Cent.

(Jpn. J. Soil Sci. Plant Nutr., 85, 333–340, 2014)

Cadmium (Cd) uptake by vegetables is sensitive to soil Cd content and soil pH. Differences among vegetable species in Cd contents of edible parts should be estimated without these influences. We evaluated three methods for estimating species differences: one based only on the Cd content of the edible parts, and two based on the coefficients of regression between the Cd content of the edible parts and the soil Cd content determined by extraction in 0.1 mol L^─1 HCl or 0.05 mol L^─1 calcium chloride (CaCl₂₎. We collected soil samples at harvest time and associated data on Cd contents in the edible parts of 17 vegetable species. We also estimated a standard of species differences from data collected in a Japanese nationwide survey of the Cd content of crops. The species differences were normalized, and the intra-class correlation coefficients (ICC) of each method, indicating the degree of conformity with the standard, were calculated. The ICCs of the two regression methods were higher than those of the simple Cd content method. Thus, the species differences estimated only from the Cd content in the edible parts was strongly affected by the Cd content of the soil, but those estimated from the regression coefficients were not affected by soil Cd content or soil pH. The CaCl₂ extraction method identified a wider range of species differences than the HCl extraction method. We propose this method for estimating the rate of decrease of Cd content in edible parts associated with species conversion. Since our data were limited, further data will be needed to estimate species differences accurately.

Key words: cadmium, Japanese nationwide survey, soil extraction method, species differences, vegetables.

Nitrous oxide emissions during reductive soil disinfestation and effect of plastic films on emissions

Gen ISHIOKA¹, Morihiro MAEDA², Shuichi WATANABE¹ and Toshiaki TAKEHARA¹

¹NARO Western Region Agric. Res. Cent., ²Grad. Sch. Environ. Life Sci., Okayama Univ.

(Jpn. J. Soil Sci. Plant Nutr., 85, 341–348, 2014)

We monitored emissions of nitrous oxide (N₂O) from upland soil during and after soil disinfestation treatment in the field in the summer of 2013. Plots were amended with fresh─cut sunflower (Helianthus annuus L., 6.1─7.1 kg fresh weight, FW m^─2), mustard greens (Brassica juncea L., 2.2─2.8 kg FW m^─2), white mustard (Sinapis alba L., 1.9─2.9 kg FW m^─2) or nothing. After irrigation, plots were covered with polyethylene film, virtually impermeable film, or nothing (the uncovered plots of mustard greens and white mustard were amended only with roots). The edges of the films were buried in the soil to minimize gas exchange. N₂O concentrations beneath the films were measured, and N₂O emissions from the surface of the films or soil were determined by the chamber method at the same time. The N₂O concentration beneath the films increased after coverage, reaching 1.6 g N m^─3 in the white mustard plots and 6.8 g N m^─3 in the unamended plots. It then declined to nearly zero within 2 days in the amended plots, but decreased slowly in the unamended plots, remaining detectable in some plots for more than 20 days. N₂O emissions were lower in the covered plots than in the uncovered plots if plants were incorporated, but were similar regardless of covering in the unamended plots. More N₂O was emitted through the polyethylene film than through the virtually impermeable film, except in the unamended plots, where a low water content might have increased the concentrations inside the virtually impermeable film.

Key words: green manure incorporation, nitrous oxide, plant residue incorporation, reductive soil disinfestation, virtually impermeable films.

Application of the Comprehensive Soil Classification System of Japan First Approximation to existing cultivated soil maps

Shokichi WAKABAYASHI^1,2, Yusuke TAKATA¹, Kazunori KOHYAMA¹ and Hiroshi OBARA¹

¹Natl Inst. Agro-Environ. Sci., ²Present address: NARO Agric. Res. Ctr.

(Jpn. J. Soil Sci. Plant Nutr., 85, 349–357, 2014)

We applied the Comprehensive Soil Classification System of Japan First Approximation (CSCS 1st Approx.) to the existing digital soil map for cultivated fields. The records of the Fundamental Soil Survey for Soil Fertility Conservation in Gunma, Tochigi, Aichi and Mie prefectures were used to reclassify polygons of the existing map with CSCS 1st Approx. The reclassification results were used to assess the consistency of soil taxa between the original classification and the reclassification, and to assess the uniqueness of “soil series” in the existing soil maps as a reliable basis for reclassification. Comparison between the taxa on the existing map and those of the reclassification showed poor consistency within existing Wet Andosols, Brown Forest soils, Gray Upland soils and Yellow soils, half of which were reclassified into different soil groups. The soil series in the existing soil map were not necessarily a reliable basis for reclassification by CSCS 1st Approx.; that is, several taxa in CSCS 1st Approx. could be allocated to one soil series, especially Wet Andosols, Yellow soils and Brown Forest soils. Therefore, in updating soil maps to reclassify soil series, it may be necessary to refer to local pedon data. The application of CSCS 1st Approx. to the existing soil map saw Andosols divided into Allophanic Andosols, Regosolic Andosols and Non─allophanic Andosols. It also changed half of the area classified as Yellow soils in Aichi and Mie prefectures to Pseudo─gley soils and Brown Forest soils.

Key words: Comprehensive Soil Classification System of Japan First Approximation, cultivated soil classification, reclassification of map polygons, soil map.

Notes

Chemical forms and elution characteristics of phosphorus in carbonized sewage sludge

Junta YANAI¹, Marina KAWAMURA¹ and Hidekazu YAMADA¹

¹Grad. Sch. Life Environ. Sci., Kyoto Pref. Univ.

(Jpn. J. Soil Sci. Plant Nutr., 85, 358–361, 2014)

Proposal of a new analysis method of the kinetics technique in presumption of the nitrogen mineralization rate from organic materials, such as a compost

Eiji ISHIBASHI, Hiroko SHIBA, Tatuki WASHIO and Masaya OYA

Okayama Pref. Tech. Cent., Agric., Fores. Fish., Res. Inst. Agric.

(Jpn. J. Soil Sci. Plant Nutr., 85, 362–368, 2014)

Effect of reduced nitrogen fertilizer cultivation with controlled release fertilizer on the growth and grain yield of high yielding rice variety “Hokuriku 193” in the Hokuriku region

Hironori HEINAI¹, Akihiro OSUMI¹, Osamu MATSUMURA^1,2 and Satoshi YOSHINAGA¹

¹NARO Agric. Res. Cent. Hokuriku Res. Cent. ²Present address: NARO West. Reg. Agric. Res. Cent.

(Jpn. J. Soil Sci. Plant Nutr., 85, 369–374, 2014)

Current Topics

Nitrogen fertilization based on soil autoclave-extractable nitrogen diagnosis in greenhouses in tender green vegetable production

Tetsuo HAYASHI¹, Kiyoshi EHARA² and Fumihiko KIMURA^2,3

¹Hokkaido Res. Org., Ornamental Plants Veg. Res. Cent.

²Present address: Hokkaido Res. Org., Kawakami agric. Exp. Sta.

³Present address: Hokkaido Res. Org., Ornamental Plants Veg. Res. Cent.

(Jpn. J. Soil Sci. Plant Nutr., 85, 375–378, 2014)

Miscellaneous

Report of 33^rd New Phytologist Symposium

Yoshihiro KOBAE

The Univ. Tokyo, Grad. Sch. Agric. Life Sci.

(Jpn. J. Soil Sci. Plant Nutr., 85, 379–380, 2014)

Report on the 20th World Congress of Soil Science (20 WCSS)

Hirotomo OHBA¹ and Nguyen Ho Lam²

¹Niigata Agric. Res. Inst.

²Fac./Grad. Sch. Agric., Kyoto Univ.

(Jpn. J. Soil Sci. Plant Nutr., 85, 381–382, 2014)

Abstracts of Soil Science and Plant Nutrition, Vol. 60, No. 2 (2014)

(Jpn. J. Soil Sci. Plant Nutr., 85, 383–388, 2014)