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1. Self-Improving Autonomous Underwater Manipulation

Author

Liu, Ruoshi, Ha, Huy, Hou, Mengxue, Song, Shuran, and Vondrick, Carl

Subjects
Computer Science - Robotics
Abstract

Underwater robotic manipulation faces significant challenges due to complex fluid dynamics and unstructured environments, causing most manipulation systems to rely heavily on human teleoperation. In this paper, we introduce AquaBot, a fully autonomous manipulation system that combines behavior cloning from human demonstrations with self-learning optimization to improve beyond human teleoperation performance. With extensive real-world experiments, we demonstrate AquaBot's versatility across diverse manipulation tasks, including object grasping, trash sorting, and rescue retrieval. Our real-world experiments show that AquaBot's self-optimized policy outperforms a human operator by 41% in speed. AquaBot represents a promising step towards autonomous and self-improving underwater manipulation systems. We open-source both hardware and software implementation details., Comment: Project Page: https://aquabot.cs.columbia.edu/

Published
2024

2. Differentiable Robot Rendering

Author

Liu, Ruoshi, Canberk, Alper, Song, Shuran, and Vondrick, Carl

Subjects
Computer Science - Robotics, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Graphics
Abstract

Vision foundation models trained on massive amounts of visual data have shown unprecedented reasoning and planning skills in open-world settings. A key challenge in applying them to robotic tasks is the modality gap between visual data and action data. We introduce differentiable robot rendering, a method allowing the visual appearance of a robot body to be directly differentiable with respect to its control parameters. Our model integrates a kinematics-aware deformable model and Gaussians Splatting and is compatible with any robot form factors and degrees of freedom. We demonstrate its capability and usage in applications including reconstruction of robot poses from images and controlling robots through vision language models. Quantitative and qualitative results show that our differentiable rendering model provides effective gradients for robotic control directly from pixels, setting the foundation for the future applications of vision foundation models in robotics., Comment: Project Page: https://drrobot.cs.columbia.edu/

Published
2024

3. EraseDraw: Learning to Insert Objects by Erasing Them from Images

Author

Canberk, Alper, Bondarenko, Maksym, Ozguroglu, Ege, Liu, Ruoshi, and Vondrick, Carl

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Creative processes such as painting often involve creating different components of an image one by one. Can we build a computational model to perform this task? Prior works often fail by making global changes to the image, inserting objects in unrealistic spatial locations, and generating inaccurate lighting details. We observe that while state-of-the-art models perform poorly on object insertion, they can remove objects and erase the background in natural images very well. Inverting the direction of object removal, we obtain high-quality data for learning to insert objects that are spatially, physically, and optically consistent with the surroundings. With this scalable automatic data generation pipeline, we can create a dataset for learning object insertion, which is used to train our proposed text conditioned diffusion model. Qualitative and quantitative experiments have shown that our model achieves state-of-the-art results in object insertion, particularly for in-the-wild images. We show compelling results on diverse insertion prompts and images across various domains.In addition, we automate iterative insertion by combining our insertion model with beam search guided by CLIP.

Published
2024

4. Controlling the World by Sleight of Hand

Author

Sudhakar, Sruthi, Liu, Ruoshi, Van Hoorick, Basile, Vondrick, Carl, and Zemel, Richard

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Humans naturally build mental models of object interactions and dynamics, allowing them to imagine how their surroundings will change if they take a certain action. While generative models today have shown impressive results on generating/editing images unconditionally or conditioned on text, current methods do not provide the ability to perform object manipulation conditioned on actions, an important tool for world modeling and action planning. Therefore, we propose to learn an action-conditional generative models by learning from unlabeled videos of human hands interacting with objects. The vast quantity of such data on the internet allows for efficient scaling which can enable high-performing action-conditional models. Given an image, and the shape/location of a desired hand interaction, CosHand, synthesizes an image of a future after the interaction has occurred. Experiments show that the resulting model can predict the effects of hand-object interactions well, with strong generalization particularly to translation, stretching, and squeezing interactions of unseen objects in unseen environments. Further, CosHand can be sampled many times to predict multiple possible effects, modeling the uncertainty of forces in the interaction/environment. Finally, method generalizes to different embodiments, including non-human hands, i.e. robot hands, suggesting that generative video models can be powerful models for robotics.

Published
2024

5. Dreamitate: Real-World Visuomotor Policy Learning via Video Generation

Author

Liang, Junbang, Liu, Ruoshi, Ozguroglu, Ege, Sudhakar, Sruthi, Dave, Achal, Tokmakov, Pavel, Song, Shuran, and Vondrick, Carl

Subjects
Computer Science - Robotics, Computer Science - Computer Vision and Pattern Recognition
Abstract

A key challenge in manipulation is learning a policy that can robustly generalize to diverse visual environments. A promising mechanism for learning robust policies is to leverage video generative models, which are pretrained on large-scale datasets of internet videos. In this paper, we propose a visuomotor policy learning framework that fine-tunes a video diffusion model on human demonstrations of a given task. At test time, we generate an example of an execution of the task conditioned on images of a novel scene, and use this synthesized execution directly to control the robot. Our key insight is that using common tools allows us to effortlessly bridge the embodiment gap between the human hand and the robot manipulator. We evaluate our approach on four tasks of increasing complexity and demonstrate that harnessing internet-scale generative models allows the learned policy to achieve a significantly higher degree of generalization than existing behavior cloning approaches., Comment: Project page: https://dreamitate.cs.columbia.edu/

Published
2024

6. Generative Camera Dolly: Extreme Monocular Dynamic Novel View Synthesis

Author

Van Hoorick, Basile, Wu, Rundi, Ozguroglu, Ege, Sargent, Kyle, Liu, Ruoshi, Tokmakov, Pavel, Dave, Achal, Zheng, Changxi, and Vondrick, Carl

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning, Computer Science - Robotics
Abstract

Accurate reconstruction of complex dynamic scenes from just a single viewpoint continues to be a challenging task in computer vision. Current dynamic novel view synthesis methods typically require videos from many different camera viewpoints, necessitating careful recording setups, and significantly restricting their utility in the wild as well as in terms of embodied AI applications. In this paper, we propose $\textbf{GCD}$, a controllable monocular dynamic view synthesis pipeline that leverages large-scale diffusion priors to, given a video of any scene, generate a synchronous video from any other chosen perspective, conditioned on a set of relative camera pose parameters. Our model does not require depth as input, and does not explicitly model 3D scene geometry, instead performing end-to-end video-to-video translation in order to achieve its goal efficiently. Despite being trained on synthetic multi-view video data only, zero-shot real-world generalization experiments show promising results in multiple domains, including robotics, object permanence, and driving environments. We believe our framework can potentially unlock powerful applications in rich dynamic scene understanding, perception for robotics, and interactive 3D video viewing experiences for virtual reality., Comment: Accepted to ECCV 2024. Project webpage is available at: https://gcd.cs.columbia.edu/

Published
2024

7. PaperBot: Learning to Design Real-World Tools Using Paper

Author

Liu, Ruoshi, Liang, Junbang, Sudhakar, Sruthi, Ha, Huy, Chi, Cheng, Song, Shuran, and Vondrick, Carl

Subjects
Computer Science - Robotics
Abstract

Paper is a cheap, recyclable, and clean material that is often used to make practical tools. Traditional tool design either relies on simulation or physical analysis, which is often inaccurate and time-consuming. In this paper, we propose PaperBot, an approach that directly learns to design and use a tool in the real world using paper without human intervention. We demonstrated the effectiveness and efficiency of PaperBot on two tool design tasks: 1. learning to fold and throw paper airplanes for maximum travel distance 2. learning to cut paper into grippers that exert maximum gripping force. We present a self-supervised learning framework that learns to perform a sequence of folding, cutting, and dynamic manipulation actions in order to optimize the design and use of a tool. We deploy our system to a real-world two-arm robotic system to solve challenging design tasks that involve aerodynamics (paper airplane) and friction (paper gripper) that are impossible to simulate accurately., Comment: Project Website: https://paperbot.cs.columbia.edu/

Published
2024

8. GES: Generalized Exponential Splatting for Efficient Radiance Field Rendering

Author

Hamdi, Abdullah, Melas-Kyriazi, Luke, Mai, Jinjie, Qian, Guocheng, Liu, Ruoshi, Vondrick, Carl, Ghanem, Bernard, and Vedaldi, Andrea

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Graphics, Computer Science - Machine Learning
Abstract

Advancements in 3D Gaussian Splatting have significantly accelerated 3D reconstruction and generation. However, it may require a large number of Gaussians, which creates a substantial memory footprint. This paper introduces GES (Generalized Exponential Splatting), a novel representation that employs Generalized Exponential Function (GEF) to model 3D scenes, requiring far fewer particles to represent a scene and thus significantly outperforming Gaussian Splatting methods in efficiency with a plug-and-play replacement ability for Gaussian-based utilities. GES is validated theoretically and empirically in both principled 1D setup and realistic 3D scenes. It is shown to represent signals with sharp edges more accurately, which are typically challenging for Gaussians due to their inherent low-pass characteristics. Our empirical analysis demonstrates that GEF outperforms Gaussians in fitting natural-occurring signals (e.g. squares, triangles, and parabolic signals), thereby reducing the need for extensive splitting operations that increase the memory footprint of Gaussian Splatting. With the aid of a frequency-modulated loss, GES achieves competitive performance in novel-view synthesis benchmarks while requiring less than half the memory storage of Gaussian Splatting and increasing the rendering speed by up to 39%. The code is available on the project website https://abdullahamdi.com/ges ., Comment: CVPR 2024 paper. project website https://abdullahamdi.com/ges

Published
2024

9. pix2gestalt: Amodal Segmentation by Synthesizing Wholes

Author

Ozguroglu, Ege, Liu, Ruoshi, Surís, Dídac, Chen, Dian, Dave, Achal, Tokmakov, Pavel, and Vondrick, Carl

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

We introduce pix2gestalt, a framework for zero-shot amodal segmentation, which learns to estimate the shape and appearance of whole objects that are only partially visible behind occlusions. By capitalizing on large-scale diffusion models and transferring their representations to this task, we learn a conditional diffusion model for reconstructing whole objects in challenging zero-shot cases, including examples that break natural and physical priors, such as art. As training data, we use a synthetically curated dataset containing occluded objects paired with their whole counterparts. Experiments show that our approach outperforms supervised baselines on established benchmarks. Our model can furthermore be used to significantly improve the performance of existing object recognition and 3D reconstruction methods in the presence of occlusions., Comment: Website: https://gestalt.cs.columbia.edu/

Published
2024

10. Objaverse-XL: A Universe of 10M+ 3D Objects

Author

Deitke, Matt, Liu, Ruoshi, Wallingford, Matthew, Ngo, Huong, Michel, Oscar, Kusupati, Aditya, Fan, Alan, Laforte, Christian, Voleti, Vikram, Gadre, Samir Yitzhak, VanderBilt, Eli, Kembhavi, Aniruddha, Vondrick, Carl, Gkioxari, Georgia, Ehsani, Kiana, Schmidt, Ludwig, and Farhadi, Ali

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

Natural language processing and 2D vision models have attained remarkable proficiency on many tasks primarily by escalating the scale of training data. However, 3D vision tasks have not seen the same progress, in part due to the challenges of acquiring high-quality 3D data. In this work, we present Objaverse-XL, a dataset of over 10 million 3D objects. Our dataset comprises deduplicated 3D objects from a diverse set of sources, including manually designed objects, photogrammetry scans of landmarks and everyday items, and professional scans of historic and antique artifacts. Representing the largest scale and diversity in the realm of 3D datasets, Objaverse-XL enables significant new possibilities for 3D vision. Our experiments demonstrate the improvements enabled with the scale provided by Objaverse-XL. We show that by training Zero123 on novel view synthesis, utilizing over 100 million multi-view rendered images, we achieve strong zero-shot generalization abilities. We hope that releasing Objaverse-XL will enable further innovations in the field of 3D vision at scale.

Published
2023

13. Sin3DM: Learning a Diffusion Model from a Single 3D Textured Shape

Author

Wu, Rundi, Liu, Ruoshi, Vondrick, Carl, and Zheng, Changxi

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Graphics
Abstract

Synthesizing novel 3D models that resemble the input example has long been pursued by graphics artists and machine learning researchers. In this paper, we present Sin3DM, a diffusion model that learns the internal patch distribution from a single 3D textured shape and generates high-quality variations with fine geometry and texture details. Training a diffusion model directly in 3D would induce large memory and computational cost. Therefore, we first compress the input into a lower-dimensional latent space and then train a diffusion model on it. Specifically, we encode the input 3D textured shape into triplane feature maps that represent the signed distance and texture fields of the input. The denoising network of our diffusion model has a limited receptive field to avoid overfitting, and uses triplane-aware 2D convolution blocks to improve the result quality. Aside from randomly generating new samples, our model also facilitates applications such as retargeting, outpainting and local editing. Through extensive qualitative and quantitative evaluation, we show that our method outperforms prior methods in generation quality of 3D shapes., Comment: Accepted to ICLR 2024. Project page: https://Sin3DM.github.io, Code: https://github.com/Sin3DM/Sin3DM

Published
2023

14. Humans as Light Bulbs: 3D Human Reconstruction from Thermal Reflection

Author

Liu, Ruoshi and Vondrick, Carl

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The relatively hot temperature of the human body causes people to turn into long-wave infrared light sources. Since this emitted light has a larger wavelength than visible light, many surfaces in typical scenes act as infrared mirrors with strong specular reflections. We exploit the thermal reflections of a person onto objects in order to locate their position and reconstruct their pose, even if they are not visible to a normal camera. We propose an analysis-by-synthesis framework that jointly models the objects, people, and their thermal reflections, which allows us to combine generative models with differentiable rendering of reflections. Quantitative and qualitative experiments show our approach works in highly challenging cases, such as with curved mirrors or when the person is completely unseen by a normal camera., Comment: Website: https://thermal.cs.columbia.edu/

Published
2023

15. Zero-1-to-3: Zero-shot One Image to 3D Object

Author

Liu, Ruoshi, Wu, Rundi, Van Hoorick, Basile, Tokmakov, Pavel, Zakharov, Sergey, and Vondrick, Carl

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Graphics, Computer Science - Robotics
Abstract

We introduce Zero-1-to-3, a framework for changing the camera viewpoint of an object given just a single RGB image. To perform novel view synthesis in this under-constrained setting, we capitalize on the geometric priors that large-scale diffusion models learn about natural images. Our conditional diffusion model uses a synthetic dataset to learn controls of the relative camera viewpoint, which allow new images to be generated of the same object under a specified camera transformation. Even though it is trained on a synthetic dataset, our model retains a strong zero-shot generalization ability to out-of-distribution datasets as well as in-the-wild images, including impressionist paintings. Our viewpoint-conditioned diffusion approach can further be used for the task of 3D reconstruction from a single image. Qualitative and quantitative experiments show that our method significantly outperforms state-of-the-art single-view 3D reconstruction and novel view synthesis models by leveraging Internet-scale pre-training., Comment: Website: https://zero123.cs.columbia.edu/

Published
2023

16. Landscape Learning for Neural Network Inversion

Author

Liu, Ruoshi, Mao, Chengzhi, Tendulkar, Purva, Wang, Hao, and Vondrick, Carl

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Many machine learning methods operate by inverting a neural network at inference time, which has become a popular technique for solving inverse problems in computer vision, robotics, and graphics. However, these methods often involve gradient descent through a highly non-convex loss landscape, causing the optimization process to be unstable and slow. We introduce a method that learns a loss landscape where gradient descent is efficient, bringing massive improvement and acceleration to the inversion process. We demonstrate this advantage on a number of methods for both generative and discriminative tasks, including GAN inversion, adversarial defense, and 3D human pose reconstruction., Comment: 15 pages, 9 figures

Published
2022

17. Shadows Shed Light on 3D Objects

Author

Liu, Ruoshi, Menon, Sachit, Mao, Chengzhi, Park, Dennis, Stent, Simon, and Vondrick, Carl

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Graphics
Abstract

3D reconstruction is a fundamental problem in computer vision, and the task is especially challenging when the object to reconstruct is partially or fully occluded. We introduce a method that uses the shadows cast by an unobserved object in order to infer the possible 3D volumes behind the occlusion. We create a differentiable image formation model that allows us to jointly infer the 3D shape of an object, its pose, and the position of a light source. Since the approach is end-to-end differentiable, we are able to integrate learned priors of object geometry in order to generate realistic 3D shapes of different object categories. Experiments and visualizations show that the method is able to generate multiple possible solutions that are consistent with the observation of the shadow. Our approach works even when the position of the light source and object pose are both unknown. Our approach is also robust to real-world images where ground-truth shadow mask is unknown., Comment: 19 pages, 10 figures

Published
2022

20. Learning the Predictability of the Future

Author

Surís, Dídac, Liu, Ruoshi, and Vondrick, Carl

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

We introduce a framework for learning from unlabeled video what is predictable in the future. Instead of committing up front to features to predict, our approach learns from data which features are predictable. Based on the observation that hyperbolic geometry naturally and compactly encodes hierarchical structure, we propose a predictive model in hyperbolic space. When the model is most confident, it will predict at a concrete level of the hierarchy, but when the model is not confident, it learns to automatically select a higher level of abstraction. Experiments on two established datasets show the key role of hierarchical representations for action prediction. Although our representation is trained with unlabeled video, visualizations show that action hierarchies emerge in the representation., Comment: Website: https://hyperfuture.cs.columbia.edu

Published
2021

22. Machine Learning Forecasting of Active Nematics

Author

Zhou, Zhengyang, Joshi, Chaitanya, Liu, Ruoshi, Norton, Michael M., Lemma, Linnea, Dogic, Zvonimir, Hagan, Michael F., Fraden, Seth, and Hong, Pengyu

Subjects
Condensed Matter - Soft Condensed Matter, Condensed Matter - Materials Science
Abstract

Active nematics are a class of far-from-equilibrium materials characterized by local orientational order of force-generating, anisotropic constitutes. Traditional methods for predicting the dynamics of active nematics rely on hydrodynamic models, which accurately describe idealized flows and many of the steady-state properties, but do not capture certain detailed dynamics of experimental active nematics. We have developed a deep learning approach that uses a Convolutional Long-Short-Term-Memory (ConvLSTM) algorithm to automatically learn and forecast the dynamics of active nematics. We demonstrate our purely data-driven approach on experiments of 2D unconfined active nematics of extensile microtubule bundles, as well as on data from numerical simulations of active nematics.

Published
2020

43. Insight into spatial-temporal patterns of hydroclimate change on the Chinese Loess Plateau over the past 250 years, using new evidence from tree rings

Author

Cai, Qiufang, primary, Liu, Yu, additional, Fang, Congxi, additional, Xie, Mei, additional, Zhang, Hanyu, additional, Li, Qiang, additional, Song, Huiming, additional, Sun, Changfeng, additional, Liu, Ruoshi, additional, Di, Taoyuan, additional, Sun, Erwen, additional, and Wang, Yong, additional

Published
2022
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45. Abnormal Ventral Somatomotor Network Homogeneity in Patients With Temporal Lobe Epilepsy

Author

Li, Dongbin, Liu, Ruoshi, Meng, Lili, Xiong, Pingan, Ren, Hongwei, Zhang, Liming, and Gao, Yujun

Subjects
Psychiatry and Mental health
Abstract

BackgroundAbnormalities of functional connectivity in the somatomotor network have been thought to play an essential role in the pathophysiology of epilepsy. However, there has been no network homogeneity (NH) study about the ventral somatomotor network (VSN) in patients with temporal lobe epilepsy (TLE). Therefore, we explored the NH of the VSN in TLE patients in this study.MethodsThe sample included 52 patients with left temporal lobe epilepsy, 83 patients with right temporal lobe epilepsy, and 68 healthy controls. The NH method was utilized to analyze the resting-state functional magnetic resonance imaging data.ResultsCompared to the controls, rTLE patients had significantly higher NH in the bilateral postcentral gyrus, and significantly lower NH in the bilateral Rolandic operculum and the right superior temporal gyrus (STG). The NH values of the left postcentral gyrus were significantly higher in lTLE patients than in the healthy controls, and lTLE patients had lower NH in the right Rolandic operculum. The altered NH in the postcentral gyrus was negatively correlated with the illness duration, and the decreased NH in the left Rolandic operculum was negatively correlated with the executive control reaction time (ECRT).ConclusionOur findings suggest that altered NH of the postcentral gyrus, Rolandic operculum and STG might be associated with the pathophysiology of TLE, and thus, highlight the contribution of the VSN to the pathophysiology of TLE.

Published
2022
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48. Sensitive climate response of tree-ring δ18O to current warming in the Qinling Mountains along a climate boundary in China.

Author

Li, Qiang, Liu, Yu, Song, Huiming, Liu, Ruoshi, Cai, Qiufang, Sun, Changfeng, Fang, Congxi, and Cheng, Hai

Subjects
MOUNTAIN climate, TREE-rings, TREE growth, OXYGEN isotopes, GLOBAL warming, SOIL heating
Abstract

In the context of global warming, the "divergence problem" phenomenon in the climate response of tree growth has been observed. Here, we use tree-ring stable oxygen isotopes (δ18O) to examine the response under current warming in Tsuga chinensis Pritz. and Pinus tabulaeformis Carr. growing on the south slope (SS) and north slope (NS) of the Qinling Mountains, a boundary between subtropical and warm temperate zones in China. Both δ18O series are significantly correlated with several hydroclimate reconstructions in the surrounding area since 1750, suggesting that tree-ring δ18O could capture large-scale characteristics of climate change in the Qinling Mountains. However, a difference arises in the two δ18O series since the early 1980s. At the SS site, the increasing δ18O is closely related to the increased warming (0.30℃/year) from 1981. This result mainly because temperature is the most significant climate factor (r = 0.465, n = 51, p < 0.001) in determining tree-ring δ18O by affecting the δ18O of soil water before and after the increased warming at the SS site. Although the warming trend is also significant (0.31℃/year) at the NS site since 1981, the δ18O variation shows no obvious fluctuation, which may indicate that relative humidity is the dominant controlling factor (r=-0.603, n = 48, p < 0.001) but not temperature for the δ18O of Pinus tabulaeformis. The results imply that tree-ring δ18O is still sensitive to its dominant climatic controlling factor under the current warming, suggesting that it has the potential to infer past climate change by using tree-ring δ18O in a future warming scenario. [ABSTRACT FROM AUTHOR]

Published
2023
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49. Indian summer monsoon and winter Total Solar Irradiance signals in the tree‐ring δ18O from foothills of High Asia, northern Pakistan.

Author

Li, Qiang, Liu, Yu, Sinha, Ashish, Kathayat, Gayatri, Duan, Xiangyu, Liu, Ruoshi, Xu, Chenxi, Song, Huiming, Fang, Congxi, Siddiqui, Muhammad Faheem, and Cheng, Hai

Subjects
TREE-rings, WATER vapor transport, FOOTHILLS, MONSOONS, OXYGEN isotopes, ATMOSPHERIC water vapor measurement
Abstract

A tree‐ring stable oxygen isotope (δ18O) chronology was developed for the past 171 years by four Abies pindrow trees growing in southwest foothills of High Asia, northern Pakistan, which is correlated with observed and modelled δ18O of precipitation in Islamabad over the instrumental period. The averaged tree‐ring δ18O chronology is significantly negative correlated with local (r = −.651, p <.001, n = 38) and regional (r = −.664, p <.001, n = 65) summer precipitation variations. Analysis of vertically integrated water vapour flux and surface wind field suggests that the sampling site is located at the northern limit of the Indian summer monsoon (ISM). Our tree‐ring δ18O series is significantly (p <.001, n = 143) negatively correlated with observed Homogenous India rainfall, All Indian rainfall, Core‐Monsoon India rainfall and Northwest India rainfall. This is the first detected ISM signal from tree‐ring δ18O over northern Pakistan. Several ISM‐related paleoclimate proxies, including three stalagmites δ18O series (Sahiya cave, Jhumar cave and Qunf cave) and a tree‐ring δ18O series (Manali), show consistent variability and a correlation coefficient of.566 (p <.001, n = 165) with our tree‐ring δ18O, suggesting that a combination of multiple proxies may be potentially useful to understand the full perspective of ISM before instrumental era. In addition, we found that the satellite‐observed winter Total Solar Irradiance exerts influence on the tree‐ring δ18O variation (r =.643, p <.001, n = 38), which may be linked to runoff of the Indus River and ISM precipitation. [ABSTRACT FROM AUTHOR]

Published
2023
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