A−8 農林業に係る気候変動の影響評価
2017年
| 執筆者 | 課題名 | 発表 | Vol.:ページ | |
|---|---|---|---|---|
| F | Fukui S. et al. | Taking account of water temperature effects on phenology improves the estimation of rice heading dates: Evidence from 758 field observations across Japan | Journal of Agricultural Meteorology | 73 (3), 84-91 |
| K | 菅野勉ら | 最新の気象予測データに基づく関東地域におけるトウモロコシ(Zea mays L.)二期作適地の変化予測 | 日本草地学会誌 | 63(2), 81-88 |
| N | 中野聡史 | 東日本と西日本のダイズの発育に対する気温上昇の影響 | 最新農業技術作物 | vol.9 |
2016年
| 執筆者 | 課題名 | 発表 | Vol.:ページ | |
|---|---|---|---|---|
| A | 阿部俊夫ら | 東北地方の多雪地帯における2013/2014年冬季の落葉広葉樹林、スギ林の降雪遮断特性および融雪特性 | 東北森林科学会誌 | 21(1): 6-10 |
| C | Confalonieri R. et al. |
A taxonomy-based approach to shed light on the babel of mathematical models for rice simulation | Environmental Modelling Software | 85, 332-341 |
| H | 長谷川利拡 | 気候変動が土地利用型作物に及ぼす影響 | JATAFFジャーナル | 4(2) |
| H | 長谷川利拡 | 作物の環境応答における生理生態・遺伝・微気象モデルの融合的アプローチ | 学術の動向 | 21(2), p.2_77-2_81 |
| H | Hikosaka K. et al. |
A meta-analysis of leaf nitrogen distribution within plant canopies | Annals of Botany | 118(2), 239-247 |
| I | 市川悦子 | リンゴの日焼け発生条件について | 信州の果実 | 平成28年7月号 |
| I | 市川悦子 | リンゴの日焼け発生と軽減対策への取組み状況 | 果実日本 | 平成28年8月号 |
| I | Ishimaru T. et al. | Quantifying rice spikelet sterility in potential heat-vulnerable regions: Field surveys in Laos and southern India | Field Crops Research | 190, 3-9 |
| I | Ito A. et al. | Physiological differences between bud breaking and flowering after dormancy completion revealed by DAM and FT/TFL1expression in Japanese pear (Pyrus pyrifolia) | Tree Physiology | 36, 109-120 |
| K | 桑形恒男 | 陸域生態系のエネルギー収支 | 植物学の百科事典(日本植物学会編) | |
| L | Liu D. et al. | Effect of Elevated CO2 Concentration, Elevated Temperature and No Nitrogen Fertilization on Methanogenic Archaeal and Methane-Oxidizing Bacterial Community Structures in Paddy Soil | Microbes and Environments | 31(3), 349-356 |
| M | 宮本善秋ら | 遭遇温度がモモ樹の耐凍性に及ぼす影響 | 岐阜中山間農研研究報告 | 12, 33-40 |
| N | 西森基貴 | 温暖化でお米の生産はどうなる? ーわが国のコメ生産におよぼす気候変動の影響予測ー | ニュース農業と環境 | No.110 |
| U | Usui Y. et al. | Rice grain yield and quality responses to free-air CO2 enrichment combined with soil and water warming | Global Change Biology | 22(3), 1256-1270 |
| Y | Yoshida H. et al. | Modelling the effects of N application on growth, yield and plant properties associated with the occurrence of chalky grains of rice | Plant Prodocution Science | 19, 36-42 |
| Z | Zhao L. et al. | QTL mapping of dehiscence length at the basal part of thecae related to heat tolerance of rice (Oryza sativa L.) | Euphytica | 209(3), 715-723 |
| Z | Zhao L. et al. | Inheritance analysis of anther dehiscence as a trait for the heat tolerance at flowering in japonica hybrid rice (Oryza sativa L.) | Euphytica | 211(3), 311-320 |
2015年
| 執筆者 | 課題名 | 発表 | Vol.:ページ | |
|---|---|---|---|---|
| F | Fukui S. et al. |
A methodology for estimating phenological parameters of rice cultivars utilizing data from common variety trials | Journal of Agricultural Meteorology | 71(2): 77-89 |
| H | Hasegawa T. et al. |
Rice Free-Air Carbon Dioxide Enrichment Studies to Improve Assessment of Climate Change Effects on Rice Agriculture | Improving Modeling Tools to Assess Climate Change Effects on Crop Response. American Society of Agronomy, Crop Science Society of America, and Soil Science Society of America, Inc. | Doi: 10.2134/advagr icsystmodel7.2014 .0015 |
| H | 長谷川利拡 | 地球環境変動が農業に及ぼす影響 | 農業 | No.1600, 21-31 |
| H | 長谷川利拡 | 気候変動が土地利用型作物に及ぼす影響 | JATAFFジャーナル | vol 4(2) :15-20 |
| H | 長谷川利拡 | 作物の環境応答における生理生態・遺伝・微気象モデルの融合的アプローチ | 学術の動向 | Vol.2, 2-6 |
| H | Higashide T. | Factors Pertaining to Dry Matter Production in Tomato Plants (Solanum Lycopersicum) | Solanum Lycopersicum: Production, Biochemistry and Health Benefits | Nova Science Publishers, Inc. |
| I | Ishimaru T. et al. |
Quantifying rice spikelet sterility in potential heat-vulnerable regions: Field surveys in Laos and southern India | Field Crops Research. | doi:10.1016/j.fcr. 2015.08.006 |
| I | Ikeda S. et al. |
Characterization of leaf blade- and leaf sheath-associated bacterial communities and assessment of their responses to environmental changes in CO2, temperature, and nitrogen levels under field conditions. | Microbes and environments | 30: 51-62. |
| I | 岩谷綾子ら | スギ針葉における雨水遮断損失量に関する予備実験 | 水文・水資源学会誌 | 28(6):291-297 |
| K | 菅野勉ら | 関東地域におけるトウモロコシ(Zea mays L.)二期作適地の近年の状況と今後の変化予測 | 日本草地学会誌 | 60(3), 161?166 |
| L | Li T. et al. | Uncertainties in predicting rice yield by current crop models under a wide range of climatic conditions. | Global Change Biology | 21: 1328-1341 |
| L | Laza MRC et al. |
Differential response of rice plants to high night temperatures imposed at varying developmental phases | Agricultural and Forest Meteorology | 209, 69-77 |
| M | Makowski D. et al. |
A statistical analysis of three ensembles of crop model responses to temperature and CO2 concentration | Agricultural and Forest Meteorology | 214-215: 483-493. |
| N | Nakano S. et al. |
Evaluation of the effects of increasing temperature on the transpiration rate and canopy conductance of soybean by using the sap flow method | Journal of Agricultural Meteorology | 71(2):98-105 |
| N | 中野聡史ら | ダイズ品種の発育モデルの作成と気温上昇が発育速度に及ぼす影響の広域推定 | 日本作物学会紀事 | 84(4):408-417 |
| N | 野口正二ら | 2014/2015年冬季の長坂試験地における積雪深の観測 | 東北の雪と生活 | 30:34-35 |
| O | Okubo T. et al. |
Elevated atmospheric CO2 levels affect community structure of rice root-associated bacteria | Frontiers in Microbiology | 6: 1-8 |
| R | Ren G. et al. | Response of soil, leaf endosphere and phyllosphere bacterial communities to elevated CO2 and soil temperature in a rice paddy | Plant and Soil | 392: 27-44 |
| S | Sawano S. et al. |
Development of a simple forest evapotranspiration model using a process-oriented model as a reference to parameterize data from a wide range of environmental conditions | Ecological modelling | 309-310:93-109 |
| S | Shimizu T. et al. |
Estimation of annual forest evapo- transpiration from a coniferous plantation watershed in Japan (2): Comparison of eddy covariance, water budget and sap-flow plus interception loss | Journal of Hydrology | 522, 250-264 |
| U | Usui Y. et al. | Rice grain yield and quality responses to free-air CO2 enrichment combined with soil and water warming | Global Change Biology | doi:10.1111/gcb.13128 |
| Y | Yoshida H. et al. |
Modelling the effects of N application on growth, yield and plant properties associated with the occurrence of chalky grains of rice | Plant Prodocution Science | Doi: 10.1080/1343943X. 2015.1128111 |
| Y | Yoshida R. et al. |
Adaptation of rice to climate change through a cultivar-based simulation: a possible cultivar shift in eastern Japan | Climate Research | 64: 275?290 |
| Z | Zhang G. et al. |
Grain growth of different rice cultivars under elevated CO2 concentrations affects yield and quality. | Field Crops Research. | doi:10.1016/j.fcr. 2015.04.006 |
2014年
| 執筆者 | 課題名 | 発表 | Vol.:ページ | |
|---|---|---|---|---|
| A | Adachi M. et al. |
Soil and water warming accelerates phenology and down-regulation of leaf photosynthesis of the rice plants grown under free-air CO2 enrichment (FACE) | Plant and Cell Physiology | 55(2): 370-380 |
| C | Chen C.P. et al. |
Do the rich always become richer? Characterizing the leaf physiological response of the high-yielding rice cultivar Takanari to free-air CO2 enrichment | Plant and Cell Physiology | 55(2): 381-391 |
| H | 長谷川利拡 | 気候変化に対する水稲の応答と適応の方向 | 生物の科学 遺伝 | |
| I | 伊東明子 | ニホンナシ1年枝における冬季の糖代謝 | 植調 | 47(12), 550-556 |
| I | 伊東明子 | ニホンナシの休眠覚醒時期判定法 | 果樹研ニュース | |
| I | 伊東明子 | ニホンナシの自発休眠覚醒に連動するバイオマーカーの検索とそれに基づく休眠覚醒時期判定法の開発 | 果実日本 | 69(4): 83-87 |
| K | 菅野 勉 | 地球温暖化と関東地域におけるトウモロコシ二期作の可能性について | 牧草と園芸 | 62(2): 1-5 |
| K | 菅野 勉 | 飼料用トウモロコシ栽培の今後の展望 | 農業食料工学会誌 | |
| K | Kabeya, N. et al. |
Effect of hydrograph separation on suspended sediment concentration predictions in a forested headwater with thick soil and weathered gneiss layers | Water | 6, 1671-1684 |
| K | 神尾真司 | クリにおける凍害の発生状況と対応方策 | 果実日本 | 平成26年7月号 |
| K | Kumagai E. et al. |
Genotypic differences in soybean yield responses to increasing temperature in a cool climate are related to maturity group | Agricultural and Forest Meteorology | 198-199, 265-272 |
| K | Kuwagata T. et al. |
Temperature Difference between Meteorological Station and nearby Farmland -Case Study for Kumagaya City in Japan- | SOLA | 10: 45-49; doi: 10.2151/sola .2014- 010 |
| L | Li T. et al. | Uncertainties in predicting rice yield by current crop models under a wide range of climatic conditions. | Global Change Biology | 21: 1328-1341 |
| M | Matsui T. et al. |
Lower-Than-Expected Floret Sterility of Rice under Extremely Hot Conditions in a Flood-Irrigated Field in New South Wales, Australia. | Plant Production Science | 17: 245-252. |
| N | 中園江ら | コムギの発育段階の推定モデル | 日本作物学会紀事 | 83(3), 249-259 |
| N | 野口正二ら | 2012/2013冬季における樹冠通過降水量の観測 | 東北の雪と生活 | 29, 59-62 |
| S | Shimono H. et al. |
Planting geometry as a pre-screening technique for identifying CO2 responsive rice genotypes: a case study of panicle number. | Physiologia plantarum | 152: 520-528. |
| S | 新川 猛 | 気候変動がカキに及ぼす影響と対応方策 | 果実日本 | 平成26年7月号 |
| S | 杉浦俊彦 | リンゴの食味の変化についての概要 | 果樹研ニュース | |
| S | 杉浦俊彦 | 地球温暖化が変えるリンゴ食味 | 明日の食品産業 | 4月号 |
| S | 杉浦俊彦 | 温暖化でリンゴが甘くなる | りんご技術 | 4月号 |
| T | 高橋哲也 | 温州ミカンにおける浮き皮の発生と気候変動の影響 | 果実日本 | 平成26年7月号 |
| T | Tazib T. et al. | QTL analyses for anther length and dehiscence at flowering as traits for the tolerance of extreme temperatures in rice (Oryza sativa L.) | Euphytica | 203(3); 629-642 |
| U | Usui Y. et al. | Heat-tolerant rice cultivars retain grain appearance quality under free-air CO2 enrichment | Rice | 7: 1-9. |
| Y | 山崎敬亮ら | 公設試へのアンケート調査に基づくイチゴ促成栽培における育苗の現状 | 園芸学研究 | 13(別2) |
| Y | Yamazaki K. et al. | Effect of temperature on development of primary axillary flower bunch in strawberry bench culture | Acta Horticulture | 1049, 809-812 |
| Y | Yoshida R. et al. | Development of impact functions for land-use-change-induced surface warming and their applications in uncertainty analysis | Climate Research | 59, 77-87 |
2013年
| 執筆者 | 課題名 | 発表 | Vol.:ページ | |
|---|---|---|---|---|
| H | 長谷川利拡 | 気候変化に対する水稲の応答と適応の方向 | 生物の科学 遺伝 | 68(1): 76-81 |
| H | 長谷川利拡 | 世界作物FACEワークショップ2012 | JATAFFジャーナル | 1(8): 43 |
| H | 長谷川利拡 | 高CO2濃度によるコメの増収効果は高温条件で低下 | 農環研ニュース | No.99 |
| H | 長谷川利拡ら | つくばみらいFACE実験によるイネの高CO2応答の検証 | 光合成研究 | 23(1): 18-23 |
| H | Hasegawa T. | Responses of Eighteen Rice (Oryza sativa L.) Cultivars to Temperature Tested Using Two Types of Growth Chambers | Plant Production Science | 16(3): 217-225 |
| I | 伊東明子 | ニホンナシの自発休眠覚醒に連動するバイオマーカーの検索とそれに基づく休眠覚醒時期判定法の開発 | 農業技術体系果樹編 | 追録28号、温暖化56-温暖化60 |
| K | 菅野 勉 | 気候変動の影響による関東地域のトウモロコシ(Zea mays L.)二期作適地の拡大と今後の変化予測 | 日本草地学会誌 | 60(3):161-166 |
| N | 中川博視ら | 異常気象・温暖化への適応を支援する農業気象情報システム | 生物の科学 遺伝 | 68: 156-161 |
| N | 中園 江 | 近年の気象変化の傾向とリスクが高まっている自然現象 | 農業いばらき | 2013年8月号 |
| N | 中園 江ら | 登熟段階別の気象要因がコムギの穂発芽発生に及ぼす影響 | 日本作物学会紀事 | 82(2): 183-191 |
| O | Ono K. et al. | Canopy-scale relationships between stomatal conductance and photosynthesis in irrigated rice | Global Change Biology | 19(7): 2209-2220 |
| P | Pasuquin EM. et al. | Responses of eighteen rice (Oryza sativa?L.) cultivars to temperature tested using two types of growth chambers | Plant Production Science | 16(3), 217-225 |
| S | Sugiura T., et al. |
Changes in the taste and textural attributes of apples in response to climate change | Scientific Reports | 3: 2418: doi: 10.1038/srep 02418 |
| U | 臼井靖浩ら | 植物の高CO2応答 FACE 実験による水田生態系の気候変動応答研究 | 化学と生物 | 51(9): 628-633. |
| Y | Yoshida R. et al. |
Development of impact functions for land-use-change-induced surface warming and their applications in uncertainty analysis | Climate research | 39:77-87: doi: 10.3354/cr 01208 |
| Z | Zhang G. et al. |
The effects of free-air CO2 enrichment (FACE) on carbon and nitrogen accumulation in grains of rice (Oryza sativa L.) | Journal of Experimental Botany | 648(11): 3179-3188 |